[ARM] Add support for the s,j,x,N,O inline asm constraints

A number of inline assembly constraints are currently supported by LLVM, but rejected as invalid by Clang:

Target independent constraints:

s: An integer constant, but allowing only relocatable values

ARM specific constraints:

j: An immediate integer between 0 and 65535 (valid for MOVW)
x: A 32, 64, or 128-bit floating-point/SIMD register: s0-s15, d0-d7, or q0-q3
N: An immediate integer between 0 and 31 (Thumb1 only)
O: An immediate integer which is a multiple of 4 between -508 and 508. (Thumb1 only)

This patch adds support to Clang for the missing constraints along with some checks to ensure that the constraints are used with the correct target and Thumb mode, and that immediates are within valid ranges (at least where possible). The constraints are already implemented in LLVM, but just a couple of minor corrections to checks (V8M Baseline includes MOVW so should work with 'j', 'N' and 'O' shouldn't be valid in Thumb2) so that Clang and LLVM are in line with each other and the documentation.

Differential Revision: https://reviews.llvm.org/D65863

Change-Id: I18076619e319bac35fbb60f590c069145c9d9a0a
llvm-svn: 371079
This commit is contained in:
David Candler 2019-09-05 15:17:25 +00:00
parent 29361c704d
commit a59bffb576
3 changed files with 401 additions and 13 deletions

View File

@ -885,19 +885,102 @@ bool ARMTargetInfo::validateAsmConstraint(
switch (*Name) {
default:
break;
case 'l': // r0-r7
case 'h': // r8-r15
case 't': // VFP Floating point register single precision
case 'w': // VFP Floating point register double precision
case 'l': // r0-r7 if thumb, r0-r15 if ARM
Info.setAllowsRegister();
return true;
case 'I':
case 'J':
case 'K':
case 'L':
case 'M':
// FIXME
case 'h': // r8-r15, thumb only
if (isThumb()) {
Info.setAllowsRegister();
return true;
}
break;
case 's': // An integer constant, but allowing only relocatable values.
return true;
case 't': // s0-s31, d0-d31, or q0-q15
case 'w': // s0-s15, d0-d7, or q0-q3
case 'x': // s0-s31, d0-d15, or q0-q7
Info.setAllowsRegister();
return true;
case 'j': // An immediate integer between 0 and 65535 (valid for MOVW)
// only available in ARMv6T2 and above
if (CPUAttr.equals("6T2") || ArchVersion >= 7) {
Info.setRequiresImmediate(0, 65535);
return true;
}
break;
case 'I':
if (isThumb()) {
if (!supportsThumb2())
Info.setRequiresImmediate(0, 255);
else
// FIXME: should check if immediate value would be valid for a Thumb2
// data-processing instruction
Info.setRequiresImmediate();
} else
// FIXME: should check if immediate value would be valid for an ARM
// data-processing instruction
Info.setRequiresImmediate();
return true;
case 'J':
if (isThumb() && !supportsThumb2())
Info.setRequiresImmediate(-255, -1);
else
Info.setRequiresImmediate(-4095, 4095);
return true;
case 'K':
if (isThumb()) {
if (!supportsThumb2())
// FIXME: should check if immediate value can be obtained from shifting
// a value between 0 and 255 left by any amount
Info.setRequiresImmediate();
else
// FIXME: should check if immediate value would be valid for a Thumb2
// data-processing instruction when inverted
Info.setRequiresImmediate();
} else
// FIXME: should check if immediate value would be valid for an ARM
// data-processing instruction when inverted
Info.setRequiresImmediate();
return true;
case 'L':
if (isThumb()) {
if (!supportsThumb2())
Info.setRequiresImmediate(-7, 7);
else
// FIXME: should check if immediate value would be valid for a Thumb2
// data-processing instruction when negated
Info.setRequiresImmediate();
} else
// FIXME: should check if immediate value would be valid for an ARM
// data-processing instruction when negated
Info.setRequiresImmediate();
return true;
case 'M':
if (isThumb() && !supportsThumb2())
// FIXME: should check if immediate value is a multiple of 4 between 0 and
// 1020
Info.setRequiresImmediate();
else
// FIXME: should check if immediate value is a power of two or a integer
// between 0 and 32
Info.setRequiresImmediate();
return true;
case 'N':
// Thumb1 only
if (isThumb() && !supportsThumb2()) {
Info.setRequiresImmediate(0, 31);
return true;
}
break;
case 'O':
// Thumb1 only
if (isThumb() && !supportsThumb2()) {
// FIXME: should check if immediate value is a multiple of 4 between -508
// and 508
Info.setRequiresImmediate();
return true;
}
break;
case 'Q': // A memory address that is a single base register.
Info.setAllowsMemory();
return true;

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@ -0,0 +1,305 @@
// REQUIRES: arm-registered-target
// RUN: %clang_cc1 -triple armv6 -verify=arm6 %s
// RUN: %clang_cc1 -triple armv7 -verify=arm7 %s
// RUN: %clang_cc1 -triple thumbv6 -verify=thumb1 %s
// RUN: %clang_cc1 -triple thumbv7 -verify=thumb2 %s
// j: An immediate integer between 0 and 65535 (valid for MOVW) (ARM/Thumb2)
int test_j(int i) {
int res;
__asm("movw %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "j"(-1), [ input ] "r"(i)
:);
// arm6-error@13 {{invalid input constraint 'j' in asm}}
// arm7-error@13 {{value '-1' out of range for constraint 'j'}}
// thumb1-error@13 {{invalid input constraint 'j' in asm}}
// thumb2-error@13 {{value '-1' out of range for constraint 'j'}}
__asm("movw %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "j"(0), [ input ] "r"(i)
:);
// arm6-error@21 {{invalid input constraint 'j' in asm}}
// arm7-no-error
// thumb1-error@21 {{invalid input constraint 'j' in asm}}
// thumb2-no-error
__asm("movw %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "j"(65535), [ input ] "r"(i)
:);
// arm6-error@29 {{invalid input constraint 'j' in asm}}
// arm7-no-error
// thumb1-error@29 {{invalid input constraint 'j' in asm}}
// thumb2-no-error
__asm("movw %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "j"(65536), [ input ] "r"(i)
:);
// arm6-error@37 {{invalid input constraint 'j' in asm}}
// arm7-error@37 {{value '65536' out of range for constraint 'j'}}
// thumb1-error@37 {{invalid input constraint 'j' in asm}}
// thumb2-error@37 {{value '65536' out of range for constraint 'j'}}
return res;
}
// I: An immediate integer valid for a data-processing instruction. (ARM/Thumb2)
// An immediate integer between 0 and 255. (Thumb1)
int test_I(int i) {
int res;
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "I"(-1), [ input ] "r"(i)
:); // thumb1-error@53 {{value '-1' out of range for constraint 'I'}}
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "I"(0), [ input ] "r"(i)
:); // No errors expected.
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "I"(255), [ input ] "r"(i)
:); // No errors expected.
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "I"(256), [ input ] "r"(i)
:); // thumb1-error@68 {{value '256' out of range for constraint 'I'}}
return res;
}
// J: An immediate integer between -4095 and 4095. (ARM/Thumb2)
// An immediate integer between -255 and -1. (Thumb1)
int test_J(int i) {
int res;
__asm(
"movw %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "J"(-4096), [ input ] "r"(i)
:);
// arm6-error@80 {{value '-4096' out of range for constraint 'J'}}
// arm7-error@80 {{value '-4096' out of range for constraint 'J'}}
// thumb1-error@80 {{value '-4096' out of range for constraint 'J'}}
// thumb2-error@80 {{value '-4096' out of range for constraint 'J'}}
__asm(
"movw %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "J"(-4095), [ input ] "r"(i)
:);
// thumb1-error@89 {{value '-4095' out of range for constraint 'J'}}
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "J"(-256), [ input ] "r"(i)
:);
// thumb1-error@95 {{value '-256' out of range for constraint 'J'}}
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "J"(-255), [ input ] "r"(i)
:);
// No errors expected.
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "J"(-1), [ input ] "r"(i)
:);
// No errors expected.
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "J"(0), [ input ] "r"(i)
:);
// thumb1-error@113 {{value '0' out of range for constraint 'J'}}
__asm(
"movw %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "J"(4095), [ input ] "r"(i)
:);
// thumb1-error@119 {{value '4095' out of range for constraint 'J'}}
__asm(
"movw %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "J"(4096), [ input ] "r"(i)
:);
// arm6-error@125 {{value '4096' out of range for constraint 'J'}}
// arm7-error@125 {{value '4096' out of range for constraint 'J'}}
// thumb1-error@125 {{value '4096' out of range for constraint 'J'}}
// thumb2-error@125 {{value '4096' out of range for constraint 'J'}}
return res;
}
// K: An immediate integer whose bitwise inverse is valid for a data-processing instruction. (ARM/Thumb2)
// An immediate integer between 0 and 255, with optional left-shift by some amount. (Thumb1)
int test_K(int i) {
int res;
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "K"(123), [ input ] "r"(i)
:);
// No errors expected.
return res;
}
// L: An immediate integer whose negation is valid for a data-processing instruction. (ARM/Thumb2)
// An immediate integer between -7 and 7. (Thumb1)
int test_L(int i) {
int res;
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "L"(-8), [ input ] "r"(i)
:); // thumb1-error@154 {{value '-8' out of range for constraint 'L'}}
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "L"(-7), [ input ] "r"(i)
:); // No errors expected.
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "L"(7), [ input ] "r"(i)
:); // No errors expected.
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "L"(8), [ input ] "r"(i)
:); // thumb1-error@169 {{value '8' out of range for constraint 'L'}}
return res;
}
// M: A power of two or a integer between 0 and 32. (ARM/Thumb2)
// An immediate integer which is a multiple of 4 between 0 and 1020. (Thumb1)
int test_M(int i) {
int res;
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "M"(123), [ input ] "r"(i)
:); // No errors expected.
return res;
}
// N: Invalid (ARM/Thumb2)
// An immediate integer between 0 and 31. (Thumb1)
int test_N(int i) {
int res;
__asm("add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "N"(-1), [ input ] "r"(i)
:);
// arm6-error@192 {{invalid input constraint 'N' in asm}}
// arm7-error@192 {{invalid input constraint 'N' in asm}}
// thumb1-error@192 {{value '-1' out of range for constraint 'N'}}
// thumb2-error@192 {{invalid input constraint 'N' in asm}}
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "N"(0), [ input ] "r"(i)
:);
// arm6-error@201 {{invalid input constraint 'N' in asm}}
// arm7-error@201 {{invalid input constraint 'N' in asm}}
// thumb1-no-error
// thumb2-error@201 {{invalid input constraint 'N' in asm}}
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "N"(31), [ input ] "r"(i)
:);
// arm6-error@210 {{invalid input constraint 'N' in asm}}
// arm7-error@210 {{invalid input constraint 'N' in asm}}
// thumb1-no-error
// thumb2-error@210 {{invalid input constraint 'N' in asm}}
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "N"(32), [ input ] "r"(i)
:);
// arm6-error@219 {{invalid input constraint 'N' in asm}}
// arm7-error@219 {{invalid input constraint 'N' in asm}}
// thumb1-error@219 {{value '32' out of range for constraint 'N'}}
// thumb2-error@219 {{invalid input constraint 'N' in asm}}
return res;
}
// O: Invalid (ARM/Thumb2)
// An immediate integer which is a multiple of 4 between -508 and 508. (Thumb1)
int test_O(int i) {
int res;
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "O"(1), [ input ] "r"(i)
:);
// arm6-error@235 {{invalid input constraint 'O' in asm}}
// arm7-error@235 {{invalid input constraint 'O' in asm}}
// thumb1-no-error
// thumb2-error@235 {{invalid input constraint 'O' in asm}}
return res;
}
// l: Same as r (ARM)
// A low 32-bit GPR register (r0-r7). (Thumb1/Thumb2)
int test_l(int i) {
int res;
__asm(
"add %0, %1;"
: [ result ] "=l"(res)
: [ constant ] "i"(10), [ input ] "l"(i)
:); // No errors expected.
return res;
}
// h: Invalid (ARM)
// A high 32-bit GPR register (r8-r15). (Thumb1/Thumb2)
int test_h(int i) {
int res;
__asm(
"add %0, %1;"
: [ result ] "=h"(res)
: [ constant ] "i"(10), [ input ] "h"(i)
:);
// arm6-error@262 {{invalid output constraint '=h' in asm}}
// arm7-error@262 {{invalid output constraint '=h' in asm}}
return res;
}
// s: An integer constant, but allowing only relocatable values.
int g;
int test_s(int i) {
int res;
__asm(
"add %0, %1;"
: [ result ] "=r"(res)
: [ constant ] "s"(&g), [ input ] "r"(i)
:); // No errors expected.
return res;
}
// w: A 32, 64, or 128-bit floating-point/SIMD register: s0-s31, d0-d31, or q0-q15.
float test_w(float x) {
__asm__("vsqrt.f32 %0, %1"
: "=w"(x)
: "w"(x)); // No error expected.
return x;
}
// x: A 32, 64, or 128-bit floating-point/SIMD register: s0-s15, d0-d7, or q0-q3.
float test_x(float x) {
__asm__("vsqrt.f32 %0, %1"
: "=x"(x)
: "x"(x)); // No error expected.
return x;
}
// t: A 32, 64, or 128-bit floating-point/SIMD register: s0-s31, d0-d15, or q0-q7.
float test_t(float x) {
__asm__("vsqrt.f32 %0, %1"
: "=t"(x)
: "t"(x)); // No error expected.
return x;
}

View File

@ -15323,7 +15323,7 @@ void ARMTargetLowering::LowerAsmOperandForConstraint(SDValue Op,
case 'j':
// Constant suitable for movw, must be between 0 and
// 65535.
if (Subtarget->hasV6T2Ops())
if (Subtarget->hasV6T2Ops() || (Subtarget->hasV8MBaselineOps()))
if (CVal >= 0 && CVal <= 65535)
break;
return;
@ -15431,7 +15431,7 @@ void ARMTargetLowering::LowerAsmOperandForConstraint(SDValue Op,
return;
case 'N':
if (Subtarget->isThumb()) { // FIXME thumb2
if (Subtarget->isThumb1Only()) {
// This must be a constant between 0 and 31, for shift amounts.
if (CVal >= 0 && CVal <= 31)
break;
@ -15439,7 +15439,7 @@ void ARMTargetLowering::LowerAsmOperandForConstraint(SDValue Op,
return;
case 'O':
if (Subtarget->isThumb()) { // FIXME thumb2
if (Subtarget->isThumb1Only()) {
// This must be a multiple of 4 between -508 and 508, for
// ADD/SUB sp = sp + immediate.
if ((CVal >= -508 && CVal <= 508) && ((CVal & 3) == 0))