; RUN: llc -mtriple=mips64el-unknown-unknown -mcpu=mips4 -soft-float -O1 \ ; RUN: -disable-mips-delay-filler < %s | FileCheck %s -check-prefix=ALL -check-prefix=C_CC_FMT ; RUN: llc -mtriple=mips64el-unknown-unknown -mcpu=mips64 -soft-float -O1 \ ; RUN: -disable-mips-delay-filler < %s | FileCheck %s -check-prefix=ALL -check-prefix=C_CC_FMT ; RUN: llc -mtriple=mips64el-unknown-unknown -mcpu=mips64r2 -soft-float -O1 \ ; RUN: -disable-mips-delay-filler < %s | FileCheck %s -check-prefix=ALL -check-prefix=C_CC_FMT ; RUN: llc -mtriple=mips64el-unknown-unknown -mcpu=mips64r6 -soft-float -O1 \ ; RUN: -disable-mips-delay-filler < %s | FileCheck %s -check-prefix=ALL -check-prefix=CMP_CC_FMT @gld0 = external global fp128 @gld1 = external global fp128 @gld2 = external global fp128 @gf1 = external global float @gd1 = external global double ; ALL-LABEL: addLD: ; ALL: ld $25, %call16(__addtf3) define fp128 @addLD() { entry: %0 = load fp128* @gld0, align 16 %1 = load fp128* @gld1, align 16 %add = fadd fp128 %0, %1 ret fp128 %add } ; ALL-LABEL: subLD: ; ALL: ld $25, %call16(__subtf3) define fp128 @subLD() { entry: %0 = load fp128* @gld0, align 16 %1 = load fp128* @gld1, align 16 %sub = fsub fp128 %0, %1 ret fp128 %sub } ; ALL-LABEL: mulLD: ; ALL: ld $25, %call16(__multf3) define fp128 @mulLD() { entry: %0 = load fp128* @gld0, align 16 %1 = load fp128* @gld1, align 16 %mul = fmul fp128 %0, %1 ret fp128 %mul } ; ALL-LABEL: divLD: ; ALL: ld $25, %call16(__divtf3) define fp128 @divLD() { entry: %0 = load fp128* @gld0, align 16 %1 = load fp128* @gld1, align 16 %div = fdiv fp128 %0, %1 ret fp128 %div } ; ALL-LABEL: conv_LD_char: ; ALL: ld $25, %call16(__floatsitf) define fp128 @conv_LD_char(i8 signext %a) { entry: %conv = sitofp i8 %a to fp128 ret fp128 %conv } ; ALL-LABEL: conv_LD_short: ; ALL: ld $25, %call16(__floatsitf) define fp128 @conv_LD_short(i16 signext %a) { entry: %conv = sitofp i16 %a to fp128 ret fp128 %conv } ; ALL-LABEL: conv_LD_int: ; ALL: ld $25, %call16(__floatsitf) define fp128 @conv_LD_int(i32 %a) { entry: %conv = sitofp i32 %a to fp128 ret fp128 %conv } ; ALL-LABEL: conv_LD_LL: ; ALL: ld $25, %call16(__floatditf) define fp128 @conv_LD_LL(i64 %a) { entry: %conv = sitofp i64 %a to fp128 ret fp128 %conv } ; ALL-LABEL: conv_LD_UChar: ; ALL: ld $25, %call16(__floatunsitf) define fp128 @conv_LD_UChar(i8 zeroext %a) { entry: %conv = uitofp i8 %a to fp128 ret fp128 %conv } ; ALL-LABEL: conv_LD_UShort: ; ALL: ld $25, %call16(__floatunsitf) define fp128 @conv_LD_UShort(i16 zeroext %a) { entry: %conv = uitofp i16 %a to fp128 ret fp128 %conv } ; ALL-LABEL: conv_LD_UInt: ; ALL: ld $25, %call16(__floatunsitf) define fp128 @conv_LD_UInt(i32 %a) { entry: %conv = uitofp i32 %a to fp128 ret fp128 %conv } ; ALL-LABEL: conv_LD_ULL: ; ALL: ld $25, %call16(__floatunditf) define fp128 @conv_LD_ULL(i64 %a) { entry: %conv = uitofp i64 %a to fp128 ret fp128 %conv } ; ALL-LABEL: conv_char_LD: ; ALL: ld $25, %call16(__fixtfsi) define signext i8 @conv_char_LD(fp128 %a) { entry: %conv = fptosi fp128 %a to i8 ret i8 %conv } ; ALL-LABEL: conv_short_LD: ; ALL: ld $25, %call16(__fixtfsi) define signext i16 @conv_short_LD(fp128 %a) { entry: %conv = fptosi fp128 %a to i16 ret i16 %conv } ; ALL-LABEL: conv_int_LD: ; ALL: ld $25, %call16(__fixtfsi) define i32 @conv_int_LD(fp128 %a) { entry: %conv = fptosi fp128 %a to i32 ret i32 %conv } ; ALL-LABEL: conv_LL_LD: ; ALL: ld $25, %call16(__fixtfdi) define i64 @conv_LL_LD(fp128 %a) { entry: %conv = fptosi fp128 %a to i64 ret i64 %conv } ; ALL-LABEL: conv_UChar_LD: ; ALL: ld $25, %call16(__fixtfsi) define zeroext i8 @conv_UChar_LD(fp128 %a) { entry: %conv = fptoui fp128 %a to i8 ret i8 %conv } ; ALL-LABEL: conv_UShort_LD: ; ALL: ld $25, %call16(__fixtfsi) define zeroext i16 @conv_UShort_LD(fp128 %a) { entry: %conv = fptoui fp128 %a to i16 ret i16 %conv } ; ALL-LABEL: conv_UInt_LD: ; ALL: ld $25, %call16(__fixunstfsi) define i32 @conv_UInt_LD(fp128 %a) { entry: %conv = fptoui fp128 %a to i32 ret i32 %conv } ; ALL-LABEL: conv_ULL_LD: ; ALL: ld $25, %call16(__fixunstfdi) define i64 @conv_ULL_LD(fp128 %a) { entry: %conv = fptoui fp128 %a to i64 ret i64 %conv } ; ALL-LABEL: conv_LD_float: ; ALL: ld $25, %call16(__extendsftf2) define fp128 @conv_LD_float(float %a) { entry: %conv = fpext float %a to fp128 ret fp128 %conv } ; ALL-LABEL: conv_LD_double: ; ALL: ld $25, %call16(__extenddftf2) define fp128 @conv_LD_double(double %a) { entry: %conv = fpext double %a to fp128 ret fp128 %conv } ; ALL-LABEL: conv_float_LD: ; ALL: ld $25, %call16(__trunctfsf2) define float @conv_float_LD(fp128 %a) { entry: %conv = fptrunc fp128 %a to float ret float %conv } ; ALL-LABEL: conv_double_LD: ; ALL: ld $25, %call16(__trunctfdf2) define double @conv_double_LD(fp128 %a) { entry: %conv = fptrunc fp128 %a to double ret double %conv } ; ALL-LABEL: libcall1_fabsl: ; ALL-DAG: ld $[[R0:[0-9]+]], 8($[[R4:[0-9]+]]) ; ALL-DAG: daddiu $[[R1:[0-9]+]], $zero, 1 ; ALL-DAG: dsll $[[R2:[0-9]+]], $[[R1]], 63 ; ALL-DAG: daddiu $[[R3:[0-9]+]], $[[R2]], -1 ; ALL-DAG: and $4, $[[R0]], $[[R3]] ; ALL-DAG: ld $2, 0($[[R4]]) define fp128 @libcall1_fabsl() { entry: %0 = load fp128* @gld0, align 16 %call = tail call fp128 @fabsl(fp128 %0) nounwind readnone ret fp128 %call } declare fp128 @fabsl(fp128) #1 ; ALL-LABEL: libcall1_ceill: ; ALL: ld $25, %call16(ceill) define fp128 @libcall1_ceill() { entry: %0 = load fp128* @gld0, align 16 %call = tail call fp128 @ceill(fp128 %0) nounwind readnone ret fp128 %call } declare fp128 @ceill(fp128) #1 ; ALL-LABEL: libcall1_sinl: ; ALL: ld $25, %call16(sinl) define fp128 @libcall1_sinl() { entry: %0 = load fp128* @gld0, align 16 %call = tail call fp128 @sinl(fp128 %0) nounwind ret fp128 %call } declare fp128 @sinl(fp128) #2 ; ALL-LABEL: libcall1_cosl: ; ALL: ld $25, %call16(cosl) define fp128 @libcall1_cosl() { entry: %0 = load fp128* @gld0, align 16 %call = tail call fp128 @cosl(fp128 %0) nounwind ret fp128 %call } declare fp128 @cosl(fp128) #2 ; ALL-LABEL: libcall1_expl: ; ALL: ld $25, %call16(expl) define fp128 @libcall1_expl() { entry: %0 = load fp128* @gld0, align 16 %call = tail call fp128 @expl(fp128 %0) nounwind ret fp128 %call } declare fp128 @expl(fp128) #2 ; ALL-LABEL: libcall1_exp2l: ; ALL: ld $25, %call16(exp2l) define fp128 @libcall1_exp2l() { entry: %0 = load fp128* @gld0, align 16 %call = tail call fp128 @exp2l(fp128 %0) nounwind ret fp128 %call } declare fp128 @exp2l(fp128) #2 ; ALL-LABEL: libcall1_logl: ; ALL: ld $25, %call16(logl) define fp128 @libcall1_logl() { entry: %0 = load fp128* @gld0, align 16 %call = tail call fp128 @logl(fp128 %0) nounwind ret fp128 %call } declare fp128 @logl(fp128) #2 ; ALL-LABEL: libcall1_log2l: ; ALL: ld $25, %call16(log2l) define fp128 @libcall1_log2l() { entry: %0 = load fp128* @gld0, align 16 %call = tail call fp128 @log2l(fp128 %0) nounwind ret fp128 %call } declare fp128 @log2l(fp128) #2 ; ALL-LABEL: libcall1_log10l: ; ALL: ld $25, %call16(log10l) define fp128 @libcall1_log10l() { entry: %0 = load fp128* @gld0, align 16 %call = tail call fp128 @log10l(fp128 %0) nounwind ret fp128 %call } declare fp128 @log10l(fp128) #2 ; ALL-LABEL: libcall1_nearbyintl: ; ALL: ld $25, %call16(nearbyintl) define fp128 @libcall1_nearbyintl() { entry: %0 = load fp128* @gld0, align 16 %call = tail call fp128 @nearbyintl(fp128 %0) nounwind readnone ret fp128 %call } declare fp128 @nearbyintl(fp128) #1 ; ALL-LABEL: libcall1_floorl: ; ALL: ld $25, %call16(floorl) define fp128 @libcall1_floorl() { entry: %0 = load fp128* @gld0, align 16 %call = tail call fp128 @floorl(fp128 %0) nounwind readnone ret fp128 %call } declare fp128 @floorl(fp128) #1 ; ALL-LABEL: libcall1_sqrtl: ; ALL: ld $25, %call16(sqrtl) define fp128 @libcall1_sqrtl() { entry: %0 = load fp128* @gld0, align 16 %call = tail call fp128 @sqrtl(fp128 %0) nounwind ret fp128 %call } declare fp128 @sqrtl(fp128) #2 ; ALL-LABEL: libcall1_rintl: ; ALL: ld $25, %call16(rintl) define fp128 @libcall1_rintl() { entry: %0 = load fp128* @gld0, align 16 %call = tail call fp128 @rintl(fp128 %0) nounwind readnone ret fp128 %call } declare fp128 @rintl(fp128) #1 ; ALL-LABEL: libcall_powil: ; ALL: ld $25, %call16(__powitf2) define fp128 @libcall_powil(fp128 %a, i32 %b) { entry: %0 = tail call fp128 @llvm.powi.f128(fp128 %a, i32 %b) ret fp128 %0 } declare fp128 @llvm.powi.f128(fp128, i32) #3 ; ALL-LABEL: libcall2_copysignl: ; ALL-DAG: daddiu $[[R2:[0-9]+]], $zero, 1 ; ALL-DAG: dsll $[[R3:[0-9]+]], $[[R2]], 63 ; ALL-DAG: ld $[[R0:[0-9]+]], %got_disp(gld1) ; ALL-DAG: ld $[[R1:[0-9]+]], 8($[[R0]]) ; ALL-DAG: and $[[R4:[0-9]+]], $[[R1]], $[[R3]] ; ALL-DAG: ld $[[R5:[0-9]+]], %got_disp(gld0) ; ALL-DAG: ld $[[R6:[0-9]+]], 8($[[R5]]) ; ALL-DAG: daddiu $[[R7:[0-9]+]], $[[R3]], -1 ; ALL-DAG: and $[[R8:[0-9]+]], $[[R6]], $[[R7]] ; ALL-DAG: or $4, $[[R8]], $[[R4]] ; ALL-DAG: ld $2, 0($[[R5]]) define fp128 @libcall2_copysignl() { entry: %0 = load fp128* @gld0, align 16 %1 = load fp128* @gld1, align 16 %call = tail call fp128 @copysignl(fp128 %0, fp128 %1) nounwind readnone ret fp128 %call } declare fp128 @copysignl(fp128, fp128) #1 ; ALL-LABEL: libcall2_powl: ; ALL: ld $25, %call16(powl) define fp128 @libcall2_powl() { entry: %0 = load fp128* @gld0, align 16 %1 = load fp128* @gld1, align 16 %call = tail call fp128 @powl(fp128 %0, fp128 %1) nounwind ret fp128 %call } declare fp128 @powl(fp128, fp128) #2 ; ALL-LABEL: libcall2_fmodl: ; ALL: ld $25, %call16(fmodl) define fp128 @libcall2_fmodl() { entry: %0 = load fp128* @gld0, align 16 %1 = load fp128* @gld1, align 16 %call = tail call fp128 @fmodl(fp128 %0, fp128 %1) nounwind ret fp128 %call } declare fp128 @fmodl(fp128, fp128) #2 ; ALL-LABEL: libcall3_fmal: ; ALL: ld $25, %call16(fmal) define fp128 @libcall3_fmal() { entry: %0 = load fp128* @gld0, align 16 %1 = load fp128* @gld2, align 16 %2 = load fp128* @gld1, align 16 %3 = tail call fp128 @llvm.fma.f128(fp128 %0, fp128 %2, fp128 %1) ret fp128 %3 } declare fp128 @llvm.fma.f128(fp128, fp128, fp128) #4 ; ALL-LABEL: cmp_lt: ; ALL: ld $25, %call16(__lttf2) define i32 @cmp_lt(fp128 %a, fp128 %b) { entry: %cmp = fcmp olt fp128 %a, %b %conv = zext i1 %cmp to i32 ret i32 %conv } ; ALL-LABEL: cmp_le: ; ALL: ld $25, %call16(__letf2) define i32 @cmp_le(fp128 %a, fp128 %b) { entry: %cmp = fcmp ole fp128 %a, %b %conv = zext i1 %cmp to i32 ret i32 %conv } ; ALL-LABEL: cmp_gt: ; ALL: ld $25, %call16(__gttf2) define i32 @cmp_gt(fp128 %a, fp128 %b) { entry: %cmp = fcmp ogt fp128 %a, %b %conv = zext i1 %cmp to i32 ret i32 %conv } ; ALL-LABEL: cmp_ge: ; ALL: ld $25, %call16(__getf2) define i32 @cmp_ge(fp128 %a, fp128 %b) { entry: %cmp = fcmp oge fp128 %a, %b %conv = zext i1 %cmp to i32 ret i32 %conv } ; ALL-LABEL: cmp_eq: ; ALL: ld $25, %call16(__eqtf2) define i32 @cmp_eq(fp128 %a, fp128 %b) { entry: %cmp = fcmp oeq fp128 %a, %b %conv = zext i1 %cmp to i32 ret i32 %conv } ; ALL-LABEL: cmp_ne: ; ALL: ld $25, %call16(__netf2) define i32 @cmp_ne(fp128 %a, fp128 %b) { entry: %cmp = fcmp une fp128 %a, %b %conv = zext i1 %cmp to i32 ret i32 %conv } ; ALL-LABEL: load_LD_LD: ; ALL: ld $[[R0:[0-9]+]], %got_disp(gld1) ; ALL: ld $2, 0($[[R0]]) ; ALL: ld $4, 8($[[R0]]) define fp128 @load_LD_LD() { entry: %0 = load fp128* @gld1, align 16 ret fp128 %0 } ; ALL-LABEL: load_LD_float: ; ALL: ld $[[R0:[0-9]+]], %got_disp(gf1) ; ALL: lw $4, 0($[[R0]]) ; ALL: ld $25, %call16(__extendsftf2) ; ALL: jalr $25 define fp128 @load_LD_float() { entry: %0 = load float* @gf1, align 4 %conv = fpext float %0 to fp128 ret fp128 %conv } ; ALL-LABEL: load_LD_double: ; ALL: ld $[[R0:[0-9]+]], %got_disp(gd1) ; ALL: ld $4, 0($[[R0]]) ; ALL: ld $25, %call16(__extenddftf2) ; ALL: jalr $25 define fp128 @load_LD_double() { entry: %0 = load double* @gd1, align 8 %conv = fpext double %0 to fp128 ret fp128 %conv } ; ALL-LABEL: store_LD_LD: ; ALL: ld $[[R0:[0-9]+]], %got_disp(gld1) ; ALL: ld $[[R1:[0-9]+]], 0($[[R0]]) ; ALL: ld $[[R2:[0-9]+]], 8($[[R0]]) ; ALL: ld $[[R3:[0-9]+]], %got_disp(gld0) ; ALL: sd $[[R2]], 8($[[R3]]) ; ALL: sd $[[R1]], 0($[[R3]]) define void @store_LD_LD() { entry: %0 = load fp128* @gld1, align 16 store fp128 %0, fp128* @gld0, align 16 ret void } ; ALL-LABEL: store_LD_float: ; ALL: ld $[[R0:[0-9]+]], %got_disp(gld1) ; ALL: ld $4, 0($[[R0]]) ; ALL: ld $5, 8($[[R0]]) ; ALL: ld $25, %call16(__trunctfsf2) ; ALL: jalr $25 ; ALL: ld $[[R1:[0-9]+]], %got_disp(gf1) ; ALL: sw $2, 0($[[R1]]) define void @store_LD_float() { entry: %0 = load fp128* @gld1, align 16 %conv = fptrunc fp128 %0 to float store float %conv, float* @gf1, align 4 ret void } ; ALL-LABEL: store_LD_double: ; ALL: ld $[[R0:[0-9]+]], %got_disp(gld1) ; ALL: ld $4, 0($[[R0]]) ; ALL: ld $5, 8($[[R0]]) ; ALL: ld $25, %call16(__trunctfdf2) ; ALL: jalr $25 ; ALL: ld $[[R1:[0-9]+]], %got_disp(gd1) ; ALL: sd $2, 0($[[R1]]) define void @store_LD_double() { entry: %0 = load fp128* @gld1, align 16 %conv = fptrunc fp128 %0 to double store double %conv, double* @gd1, align 8 ret void } ; ALL-LABEL: select_LD: ; C_CC_FMT: movn $8, $6, $4 ; C_CC_FMT: movn $9, $7, $4 ; C_CC_FMT: move $2, $8 ; C_CC_FMT: move $4, $9 ; FIXME: This sll works around an implementation detail in the code generator ; (setcc's result is i32 so bits 32-63 are undefined). It's not really ; needed. ; CMP_CC_FMT-DAG: sll $[[CC:[0-9]+]], $4, 0 ; CMP_CC_FMT-DAG: seleqz $[[EQ1:[0-9]+]], $8, $[[CC]] ; CMP_CC_FMT-DAG: selnez $[[NE1:[0-9]+]], $6, $[[CC]] ; CMP_CC_FMT-DAG: or $2, $[[NE1]], $[[EQ1]] ; CMP_CC_FMT-DAG: seleqz $[[EQ2:[0-9]+]], $9, $[[CC]] ; CMP_CC_FMT-DAG: selnez $[[NE2:[0-9]+]], $7, $[[CC]] ; CMP_CC_FMT-DAG: or $4, $[[NE2]], $[[EQ2]] define fp128 @select_LD(i32 %a, i64, fp128 %b, fp128 %c) { entry: %tobool = icmp ne i32 %a, 0 %cond = select i1 %tobool, fp128 %b, fp128 %c ret fp128 %cond } ; ALL-LABEL: selectCC_LD: ; ALL: move $[[R0:[0-9]+]], $11 ; ALL: move $[[R1:[0-9]+]], $10 ; ALL: move $[[R2:[0-9]+]], $9 ; ALL: move $[[R3:[0-9]+]], $8 ; ALL: ld $25, %call16(__gttf2)($gp) ; ALL: jalr $25 ; C_CC_FMT: slti $[[CC:[0-9]+]], $2, 1 ; C_CC_FMT: movz $[[R1]], $[[R3]], $[[CC]] ; C_CC_FMT: movz $[[R0]], $[[R2]], $[[CC]] ; C_CC_FMT: move $2, $[[R1]] ; C_CC_FMT: move $4, $[[R0]] ; CMP_CC_FMT: slt $[[CC:[0-9]+]], $zero, $2 ; CMP_CC_FMT: seleqz $[[EQ1:[0-9]+]], $[[R1]], $[[CC]] ; CMP_CC_FMT: selnez $[[NE1:[0-9]+]], $[[R3]], $[[CC]] ; CMP_CC_FMT: or $2, $[[NE1]], $[[EQ1]] ; CMP_CC_FMT: seleqz $[[EQ2:[0-9]+]], $[[R0]], $[[CC]] ; CMP_CC_FMT: selnez $[[NE2:[0-9]+]], $[[R2]], $[[CC]] ; CMP_CC_FMT: or $4, $[[NE2]], $[[EQ2]] define fp128 @selectCC_LD(fp128 %a, fp128 %b, fp128 %c, fp128 %d) { entry: %cmp = fcmp ogt fp128 %a, %b %cond = select i1 %cmp, fp128 %c, fp128 %d ret fp128 %cond }