/* Can be compiled both as ARM or Thumb using gcc -Wall -g -O0 -mcpu=cortex-a8 -mfpu=neon -mfloat-abi=softfp -m{arm,thumb} -o vfp vfp.c */ #include #include #include #ifndef __thumb__ // ARM #define MOVE_to_FPSCR_from_R4 \ ".word 0xEEE14A10 @ vmsr FPSCR, r4\n\t" #define MOVE_to_R4_from_FPSCR \ ".word 0xEEF14A10 @ vmrs r4, FPSCR\n\t" #endif #ifdef __thumb__ // Thumb #define MOVE_to_FPSCR_from_R4 \ ".word 0x4A10EEE1 @ vmsr FPSCR, r4\n\t" #define MOVE_to_R4_from_FPSCR \ ".word 0x4A10EEF1 @ vmrs r4, FPSCR\n\t" #endif static inline unsigned int f2u(float x) { union { float f; unsigned int u; } cvt; cvt.f = x; return cvt.u; } static inline unsigned int f2u0(double x) { union { double f; unsigned int u[2]; } cvt; cvt.f = x; return cvt.u[0]; } static inline unsigned int f2u1(double x) { union { double f; unsigned int u[2]; } cvt; cvt.f = x; return cvt.u[1]; } /* test macros to generate and output the result of a single instruction */ const unsigned int mem[] = { 0x121f1e1f, 0x131b1a1b, 0x141c1f1c, 0x151d191d, 0x232f2e2f, 0x242c2b2b, 0x252a2e2b, 0x262d2d2a, 0x3f343f3e, 0x3e353d3c, 0x363a3c3b, 0x3b373b3a, 0x454f4e45, 0x4e464d46, 0x474d474c, 0x4a484a4c }; #define TESTINSN_vmovf32_imm(instruction, DD, imm) \ { \ unsigned int out[1]; \ \ __asm__ volatile( \ instruction ", #"#imm"\n\t"\ "vstmia %0, {" #DD "}\n\t" \ : \ : "r" (out) \ : #DD, "memory" \ ); \ printf("%s, #" #imm " :: Sd 0x%08x\n", \ instruction, out[0]); \ } #define TESTINSN_vmov_core_single(instruction, RN, SD, SDval) \ { \ unsigned int out[1]; \ \ printf(#SD" 0x%08x\t", SDval); \ __asm__ volatile( \ "mov " #RN ", #0\n\t" \ "vmov.f32 " #SD ", %1\n\t" \ instruction "\n\t" \ "str " #RN ", [%0]\n\t" \ : \ : "r" (out), "r" (SDval) \ : #SD, #RN, "memory" \ ); \ printf("%s :: "#RN" 0x%08x\n", \ instruction, out[0]); \ } #define TESTINSN_vmov_single_core(instruction, SD, RN, RNval) \ { \ unsigned int out[1]; \ \ printf(#RN" 0x%08x\t", RNval); \ __asm__ volatile( \ "mov " #RN ", %1\n\t" \ "vmov " #SD ", #0x40000000\n\t" \ instruction "\n\t"\ "vstmia %0, {" #SD "}\n\t" \ : \ : "r" (out), "r" (RNval) \ : #SD, #RN, "memory" \ ); \ printf("%s :: "#SD" 0x%08x\n", \ instruction, out[0]); \ } #define TESTINSN_vmov_2core_2single(instruction, RD1, RD2, SN, SM, SNval, SMval) \ { \ unsigned int out[2]; \ \ printf("\t\t\t "#SN" 0x%08x "#SM" 0x%08x\n", SNval, SMval); \ __asm__ volatile( \ "vmov " #SN ", %1\n\t" \ "vmov " #SM ", %2\n\t" \ "mov " #RD1 ", #0x4\n\t" \ "mov " #RD2 ", #0x4\n\t" \ instruction "\n\t"\ "str " #RD1 ", [%0]\n\t" \ "str " #RD2 ", [%0, #+4]\n\t" \ : \ : "r" (out), "r" (SNval), "r" (SMval) \ : #RD1, #RD2, #SN, #SM, "memory" \ ); \ printf("%s :: "#RD1" 0x%08x "#RD2" 0x%08x\n", \ instruction, out[0], out[1]); \ } #define TESTINSN_vmov_2single_2core(instruction, SD1, SD2, RN, RM, RNval, RMval) \ { \ unsigned int out[2]; \ \ printf("\t\t\t "#RN" 0x%08x "#RM" 0x%08x\n", RNval, RMval); \ __asm__ volatile( \ "mov " #RN ", %1\n\t" \ "mov " #RM ", %2\n\t" \ "vmov " #SD1 ", #0x40000000\n\t" \ "vmov " #SD2 ", #0x40000000\n\t" \ instruction "\n\t"\ "vstmia %0, {" #SD1 ", " #SD2 " }\n\t" \ : \ : "r" (out), "r" (RNval), "r" (RMval) \ : #SD1, #SD2, #RN, #RM, "memory" \ ); \ printf("%s :: "#SD1" 0x%08x "#SD2" 0x%08x\n", \ instruction, out[0], out[1]); \ } #define TESTINSN_vmov_double_2core(instruction, DD, RN, RM, RNval, RMval) \ { \ unsigned int out[2]; \ \ printf(#RN" 0x%08x "#RM" 0x%08x\t", RNval, RMval); \ __asm__ volatile( \ "mov " #RN ", %1\n\t" \ "mov " #RM ", %2\n\t" \ "vmov.i8 " #DD ", #0x55\n\t" \ instruction "\n\t"\ "vstmia %0, {" #DD "}\n\t" \ : \ : "r" (out), "r" (RNval), "r" (RMval) \ : #DD, #RN, #RM, "memory" \ ); \ printf("%s :: "#DD" 0x%08x 0x%08x\n", \ instruction, out[0], out[1]); \ } #define TESTINSN_vmov_2core_double(instruction, RD1, RD2, DN, DNval0, DNval1) \ { \ unsigned int out[2]; \ \ printf(#DN" 0x%08x 0x%08x\t", DNval0, DNval1); \ __asm__ volatile( \ "mov " #RD1 ", #55\n\t" \ "mov " #RD2 ", #55\n\t" \ "vmov " #DN ", %1, %2\n\t" \ instruction "\n\t" \ "str " #RD1 ", [%0]\n\t" \ "str " #RD2 ", [%0, #+4]\n\t" \ : \ : "r" (out), "r" (DNval0), "r" (DNval1) \ : #DN, #RD1, #RD2, "memory" \ ); \ printf("%s :: "#RD1" 0x%08x "#RD2" 0x%08x\n", \ instruction, out[0], out[1]); \ } #define TESTINSN_un_f64(instruction, DD, DM, DMtype, DMval0, DMval1) \ { \ unsigned int out[2]; \ \ __asm__ volatile( \ "vmov.i8 " #DD ", #0x55" "\n\t" \ "vmov " #DM ", %1, %2 \n\t" \ instruction "\n\t" \ "vstmia %0, {" #DD "}\n\t" \ : \ : "r" (out), "r" (DMval0), "r" (DMval1) \ : #DD, #DM, "memory" \ ); \ printf("%s :: Dd 0x%08x 0x%08x Dm (" #DMtype ")0x%08x %08x\n", \ instruction, out[1], out[0], DMval1, DMval0); \ } #define TESTINSN_un_f32(instruction, SD, SM, SMtype, SMval) \ { \ unsigned int out[1]; \ \ __asm__ volatile( \ "vmov.f32 " #SM ", %1\n\t" \ "vmov.f32 " #SD ", %2\n\t" \ instruction "\n\t" \ "vstmia %0, {" #SD "}\n\t" \ : \ : "r" (out), "r" (SMval), "r" (0xffffaaaa) \ : #SD, #SM, "memory" \ ); \ printf("%s :: Sd 0x%08x Sm (" #SMtype ")0x%08x\n", \ instruction, out[0], SMval); \ } #define TESTINSN_un_cvt_ds(instruction, DD, SM, SMval) \ { \ unsigned int out[2]; \ \ __asm__ volatile( \ "vmov " #SM ", %1\n\t" \ "vmov " #DD ", %2, %2\n\t" \ instruction "\n\t" \ "vstmia %0, {" #DD "}\n\t" \ : \ : "r" (out), "r" (SMval), "r" (0xffffaaaa) \ : #DD, #SM, "memory" \ ); \ printf("%s :: Dd 0x%08x 0x%08x Sm 0x%08x\n", \ instruction, out[1], out[0], SMval); \ } #define TESTINSN_un_cvt_sd(instruction, SD, DM, DMval0, DMval1) \ { \ unsigned int out[1]; \ \ __asm__ volatile( \ "vmov " #SD ", %3\n\t" \ "vmov " #DM ", %1, %2\n\t" \ instruction "\n\t" \ "vstmia %0, {" #SD "}\n\t" \ : \ : "r" (out), "r" (DMval0), "r" (DMval1), "r" (0xffffaaaa) \ : #SD, #DM, "memory" \ ); \ printf("%s :: Sd 0x%08x Dm 0x%08x %08x\n", \ instruction, out[0], DMval1, DMval0); \ } #define TESTINSN_cvt_i32_f64(instruction, SD, DM, DMval0, DMval1) \ { \ unsigned int out[1]; \ \ __asm__ volatile( \ "vmov " #DM ", %1, %2\n\t" \ "vmov " #SD ", %3\n\t" \ instruction "\n\t" \ "vstmia %0, {" #SD "}\n\t" \ : \ : "r" (out), "r" (DMval0), "r" (DMval1), "r" (0xffffaaaa) \ : #SD, #DM, "memory" \ ); \ printf("%s :: Sd 0x%08x Dm 0x%08x %08x\n", \ instruction, out[0], DMval1, DMval0); \ } #define TESTINSN_cvt_f64_i32(instruction, DD, SM, SMval) \ { \ unsigned int out[2]; \ \ __asm__ volatile( \ "vmov " #SM ", %1\n\t" \ "vmov " #DD ", %2, %2\n\t" \ instruction "\n\t" \ "vstmia %0, {" #DD "}\n\t" \ : \ : "r" (out), "r" (SMval), "r" (0xfffffff0) \ : #DD, #SM, "memory" \ ); \ printf("%s :: Dd 0x%08x %08x Sm 0x%08x\n", \ instruction, out[0], out[1], SMval); \ } #define TESTINSN_un_f64_q_vmrs(instruction, DD, DM, DMtype, DMval, RN) \ { \ unsigned int out[2]; \ unsigned int fpscr; \ \ __asm__ volatile( \ "vmov.i8 " #DD ", #0x55" "\n\t" \ "mov r4, #0\n\t" \ ".word 0xEEE14A10 @ vmsr FPSCR, "#RN"\n\t" \ "vdup." #DMtype " " #DM ", %2\n\t" \ instruction "\n\t" \ "vstmia %1, {" #DD "}\n\t" \ ".word 0xEEF14A10 @ vmrs "#RN", FPSCR\n\t" \ "mov %0, r4" \ : "=r" (fpscr) \ : "r" (out), "r" (DMval) \ : #DD, #DM, "memory", #RN \ ); \ printf("%s :: Dd 0x%08x 0x%08x Dm (" #DMtype ")0x%08x fpscr %08x\n", \ instruction, out[1], out[0], DMval, fpscr); \ } #define TESTINSN_core_to_scalar(instruction, DD, DM, DMval) \ { \ unsigned int out[2]; \ \ __asm__ volatile( \ "vmov.i8 " #DD ", #0x55" "\n\t" \ "mov " #DM ", %1\n\t" \ instruction "\n\t" \ "vstmia %0, {" #DD "}\n\t" \ : \ : "r" (out), "r" (DMval) \ : #DD, #DM, "memory" \ ); \ printf("%s :: Dd 0x%08x 0x%08x Dm 0x%08x\n", \ instruction, out[1], out[0], DMval); \ } #define TESTINSN_vldr_f64(instruction, DD, RN, RNval, imm) \ { \ unsigned int out[2]; \ \ __asm__ volatile( \ "vmov.i8 " #DD ", #0x55" "\n\t" \ "mov " #RN ", %1\n\t" \ instruction "\n\t" \ "vstmia %0, {" #DD "}\n\t" \ : \ : "r" (out), "r" (RNval) \ : #DD, #RN, "memory" \ ); \ printf("%s :: Dd 0x%08x 0x%08x *(int*) (Rn + shift) 0x%04x\n", \ instruction, out[1], out[0], *(int*) (RNval + imm)); \ } #define TESTINSN_vldr_f32(instruction, SD, RN, RNval, imm) \ { \ unsigned int out[1]; \ \ __asm__ volatile( \ "vmov " #SD ", %3" "\n\t" \ "mov " #RN ", %1\n\t" \ instruction "\n\t" \ "vstmia %0, {" #SD "}\n\t" \ : \ : "r" (out), "r" (RNval), "r" (imm), "r" (0xffffffaa) \ : #SD, #RN, "memory" \ ); \ printf("%s :: Sd 0x%08x *(int*) (Rn + shift) 0x%04x\n", \ instruction, out[0], *(int*) (RNval + imm)); \ } #define TESTINSN_vstr64(instruction, DD, DDval, RM, RMval, imm) \ { \ unsigned int out[2]; \ \ __asm__ volatile( \ "vmov.i8 " #DD ", #" #DDval "\n\t" \ "add %1, %1, #" #imm "\n\t" \ "mov " #RM ", #0x55\n\t" \ "str " #RM ", [%1]\n\t" \ "str " #RM ", [%1, #4]\n\t" \ "sub %1, %1, #" #imm "\n\t" \ "mov " #RM ", %1\n\t" \ instruction "\n\t" \ "vstmia %0, {" #DD "}\n\t" \ : \ : "r" (out), "r" (RMval) \ : #DD, #RM, "memory" \ ); \ printf("%s :: Dd 0x%08x 0x%08x *(int*) (Rm + shift) 0x%04x\n", \ instruction, out[1], out[0], *(int*) (RMval + imm)); \ } #define TESTINSN_vstr32(instruction, SD, RM, RMval, imm) \ { \ unsigned int out[1]; \ \ __asm__ volatile( \ "vmov " #SD ", #0xbe280000\n\t" \ "mov " #RM ", #0x55\n\t" \ "str " #RM ", [%1, #" #imm "]\n\t" \ "mov " #RM ", %1\n\t" \ instruction "\n\t" \ "vstmia %0, {" #SD "}\n\t" \ : \ : "r" (out), "r" (RMval) \ : #SD, #RM, "memory" \ ); \ printf("%s :: Sd 0x%08x, *(int*) (Rm + shift) 0x%04x\n", \ instruction, out[0], *(int*) (RMval + imm)); \ } #define TESTINSN_scalar_to_core(instruction, QD, QM, QMtype, QMval) \ { \ unsigned int out[2]; \ \ __asm__ volatile( \ "mov " #QD ", #0x55" "\n\t" \ "vdup." #QMtype " " #QM ", %1\n\t" \ instruction "\n\t" \ "str " #QD ", [%0]\n\t" \ : \ : "r" (out), "r" (QMval) \ : #QD, #QM, "memory" \ ); \ printf("%s :: Rd 0x%08x Qm (" #QMtype ")0x%08x\n", \ instruction, out[0], QMval); \ } #define TESTINSN_VLDn(instruction, QD1, QD2, QD3, QD4) \ { \ unsigned int out[8]; \ \ __asm__ volatile( \ "vmov.i8 " #QD1 ", #0x55" "\n\t" \ "vmov.i8 " #QD2 ", #0x55" "\n\t" \ "vmov.i8 " #QD3 ", #0x55" "\n\t" \ "vmov.i8 " #QD4 ", #0x55" "\n\t" \ instruction ", [%1]\n\t" \ "mov r4, %0\n\t" \ "vstmia %0!, {" #QD1 "}\n\t" \ "vstmia %0!, {" #QD2 "}\n\t" \ "vstmia %0!, {" #QD3 "}\n\t" \ "vstmia %0!, {" #QD4 "}\n\t" \ "mov %0, r4\n\t" \ : \ : "r" (out), "r" (mem) \ : #QD1, #QD2, #QD3, #QD4, "memory", "r4" \ ); \ printf("%s :: Result 0x%08x 0x%08x 0x%08x 0x%08x "\ "0x%08x 0x%08x 0x%08x 0x%08x\n", \ instruction, out[0], out[1], out[2], out[3], out[4],\ out[5], out[6], out[7]); \ } #define TESTINSN_VSTMIAnoWB(instruction, RN, QD, QDval) \ { \ unsigned int out[2]; \ \ __asm__ volatile( \ "vmov.i8 " #QD ", " #QDval "\n\t" \ "mov " #RN ", %0\n\t" \ instruction "\n\t" \ : \ : "r" (out), "r" (mem) \ : #QD, "memory", #RN \ ); \ printf("%s :: Result 0x%08x 0x%08x\n", \ instruction, out[0], out[1]); \ } #define TESTINSN_VSTMIAnoWB32(instruction, RN, SD, SDval) \ { \ unsigned int out[1]; \ \ __asm__ volatile( \ "vmov " #SD ", %2\n\t" \ "mov " #RN ", %0\n\t" \ instruction "\n\t" \ : \ : "r" (out), "r" (mem), "r" (SDval) \ : #SD, "memory", #RN \ ); \ printf("%s :: Result 0x%08x\n", \ instruction, out[0]); \ } #define TESTINSN_VSTMIAWB(RN, QD1, QD2) \ { \ unsigned int out[4]; \ \ __asm__ volatile( \ "vmov.i8 " #QD1 ", #0xa0" "\n\t" \ "vmov.i8 " #QD2 ", #0xb1" "\n\t" \ "mov " #RN ", %0\n\t" \ "vstmia " #RN "!, {" #QD1 "}\n\t" \ "vstmia " #RN "!, {" #QD2 "}\n\t" \ : \ : "r" (out), "r" (mem) \ : #QD1, #QD2, "memory", #RN \ ); \ printf("vstmia "#RN"!, "#QD1"; vstmia "#RN"!, "#QD2" :: Result 0x%08x 0x%08x 0x%08x 0x%08x\n", \ out[0], out[1], out[2], out[3]); \ } #define TESTINSN_VSTMIAWB32(RN, SD1, SD2) \ { \ unsigned int out[2]; \ \ __asm__ volatile( \ "vmov " #SD1 ", #0xbff80000" "\n\t" \ "vmov " #SD2 ", #0x3fa80000" "\n\t" \ "mov " #RN ", %0\n\t" \ "vstmia " #RN "!, {" #SD1 "}\n\t" \ "vstmia " #RN "!, {" #SD2 "}\n\t" \ : \ : "r" (out), "r" (mem) \ : #SD1, #SD2, "memory", #RN \ ); \ printf("vstmia " #RN "!, "#SD1"; vstmia "#RN"!, "#SD2" :: Result 0x%08x 0x%08x\n", \ out[0], out[1]); \ } #define TESTINSN_VSTMDB(RN, QD1, QD2) \ { \ unsigned int out[4]; \ long endout = (long) out + 8; \ \ __asm__ volatile( \ "vmov.i8 " #QD1 ", #0xaa" "\n\t" \ "vmov.i8 " #QD2 ", #0xbb" "\n\t" \ "mov " #RN ", %0\n\t" \ "vstmdb " #RN "!, {" #QD1 "}\n\t" \ "vstmdb " #RN "!, {" #QD2 "}\n\t" \ "mov %0, " #RN "\n\t" \ : \ : "r" (endout), "r" (mem) \ : #QD1, #QD2, "memory", #RN \ ); \ printf("vstmdb " #RN "!, " #QD2 "; vstmdb " #RN "!, " #QD2 \ " :: Result 0x%08x 0x%08x 0x%08x 0x%08x\n", \ out[0], out[1], out[2], out[3]); \ } #define TESTINSN_VLDMIAnoWB(instruction, RN, QD) \ { \ unsigned int in[2] = {0xaa0, 0xbb1}; \ unsigned int out[2]; \ \ __asm__ volatile( \ "vmov.i8 " #QD ", #0x55" "\n\t" \ "mov " #RN ", %0\n\t" \ instruction "\n\t" \ "mov " #RN ", %1\n\t" \ "vstmia " #RN ", {" #QD "}\n\t" \ : \ : "r" (in), "r" (out), "r" (mem) \ : #QD, "memory", #RN \ ); \ printf("%s :: Result 0x%08x 0x%08x 0x%08x 0x%08x\n", \ instruction, out[0], out[1], out[2], out[3]); \ } #define TESTINSN_VLDMIAWB(RN, QD1, QD2) \ { \ unsigned int in[4] = {0xaa0, 0xbb1, 0xcc2, 0xdd3}; \ unsigned int out[4]; \ \ __asm__ volatile( \ "vmov.i8 " #QD1 ", #0x55" "\n\t" \ "vmov.i8 " #QD2 ", #0x55" "\n\t" \ "mov " #RN ", %0\n\t" \ "vldmia " #RN "!, {" #QD1 "}\n\t" \ "vldmia " #RN "!, {" #QD2 "}\n\t" \ "mov " #RN ", %1\n\t" \ "vstmia " #RN "!, {" #QD1 "}\n\t" \ "vstmia " #RN "!, {" #QD2 "}\n\t" \ : \ : "r" (in), "r" (out), "r" (mem) \ : #QD1, #QD2, "memory", #RN \ ); \ printf("vldmia rN!, qD1; vldmia rN!, qD2 :: Result 0x%08x 0x%08x 0x%08x 0x%08x\n", \ out[0], out[1], out[2], out[3]); \ } #define TESTINSN_VLDMDB(RN, QD1, QD2) \ { \ unsigned int in[4] = {0xaa0, 0xbb1, 0xcc2, 0xdd3}; \ unsigned int out[4]; \ long endin = (long) in + 16; \ \ __asm__ volatile( \ "vmov.i8 " #QD1 ", #0x55" "\n\t" \ "vmov.i8 " #QD2 ", #0x55" "\n\t" \ "mov " #RN ", %0\n\t" \ "vldmdb " #RN "!, {" #QD1 "}\n\t" \ "vldmdb " #RN "!, {" #QD2 "}\n\t" \ "mov " #RN ", %1\n\t" \ "vstmia " #RN "!, {" #QD1 "}\n\t" \ "vstmia " #RN "!, {" #QD2 "}\n\t" \ : \ : "r" (endin), "r" (out), "r" (mem) \ : #QD1, #QD2, "memory", #RN \ ); \ printf("vldmdb rN!, qD1; vldmia rN!, qD2 :: Result 0x%08x 0x%08x 0x%08x 0x%08x\n", \ out[0], out[1], out[2], out[3]); \ } #define TESTINSN_VLDR(instruction, dD, rN, rNval, offset) \ { \ unsigned int out[2]; \ \ __asm__ volatile( \ "vmov.i8 " #dD ", #0x55\n\t" \ "mov " #rN ", %1\n\t" \ instruction ", #" #offset "]\n\t" \ "vstmia %0, {" #dD "}\n\t" \ : \ : "r" (out), "r" (rNval) \ : #dD, "memory" \ ); \ printf("%s :: dD 0x%08x 0x%08x rN 0x%08x\n", \ instruction, out[1], out[0], rNval); \ } #define TESTINSN_vpush_vpop_f32(S1, Sval1, S2, Sval2, S3, Sval3, S4, S5, S6) \ { \ unsigned int out[6]; \ \ __asm__ volatile( \ "vmov "#S4", %4\n\t" \ "vmov "#S5", %4\n\t" \ "vmov "#S6", %4\n\t" \ "vmov "#S1", %1\n\t" \ "vmov "#S2", %2\n\t" \ "vmov "#S3", %3\n\t" \ "vpush {"#S1", "#S2"}\n\t" \ "vpush {"#S3"}\n\t" \ "vpop {"#S4"}\n\t" \ "vpop {"#S5", "#S6"}\n\t" \ "mov r4, %0\n\t" \ "vstmia %0!, {"#S1"}\n\t" \ "vstmia %0!, {"#S2"}\n\t" \ "vstmia %0!, {"#S3"}\n\t" \ "vstmia %0!, {"#S4"}\n\t" \ "vstmia %0!, {"#S5"}\n\t" \ "vstmia %0!, {"#S6"}\n\t" \ "mov %0, r4\n\t" \ : \ : "r" (out), "r" (Sval1), "r" (Sval2), "r" (Sval3), "r" (0x55555555) \ : #S1, #S2, #S3, #S4, #S5, #S6, "r4", "memory" \ ); \ printf(#S1" 0x%08x "#S2" 0x%08x "#S3" 0x%08x "#S4" 0x%08x "\ #S5" 0x%08x "#S6" 0x%08x\n", out[0], out[1],\ out[2], out[3], out[4], out[5]); \ } #define TESTINSN_vpush_vpop_f64(D1, Dval10, Dval11, D2, Dval20, Dval21, D3, D4) \ { \ unsigned int out[8]; \ \ __asm__ volatile( \ "vmov "#D3", %4, %4\n\t" \ "vmov "#D4", %4, %4\n\t" \ "vmov "#D1", %1, %2\n\t" \ "vmov "#D2", %3, %4\n\t" \ "vpush {"#D1", "#D2"}\n\t" \ "vpop {"#D3", "#D4"}\n\t" \ "mov r4, %0\n\t" \ "vstmia %0!, {"#D1"}\n\t" \ "vstmia %0!, {"#D2"}\n\t" \ "vstmia %0!, {"#D3"}\n\t" \ "vstmia %0!, {"#D4"}\n\t" \ "mov %0, r4\n\t" \ : \ : "r" (out), "r" (Dval10), "r" (Dval11), "r" (Dval20), "r" (Dval21), "r" (0x55555555) \ : #D1, #D2, #D3, #D4, "r4", "memory" \ ); \ printf(#D1" 0x%08x %08x "#D2" 0x%08x %08x "#D3" 0x%08x %08x "#D4" 0x%08x %08x\n",\ out[0],out[1], out[2],out[3], out[4],out[5], out[6],out[7]); \ } #define TESTINSN_VSTn(instruction, QD1, QD2, QD3, QD4) \ { \ unsigned int out[8]; \ \ memset(out, 0x55, 8 * (sizeof(unsigned int)));\ __asm__ volatile( \ "mov r4, %1\n\t" \ "vldmia %1!, {" #QD1 "}\n\t" \ "vldmia %1!, {" #QD2 "}\n\t" \ "vldmia %1!, {" #QD3 "}\n\t" \ "vldmia %1!, {" #QD4 "}\n\t" \ "mov %1, r4\n\t" \ instruction ", [%0]\n\t" \ : \ : "r" (out), "r" (mem) \ : #QD1, #QD2, #QD3, #QD4, "memory", "r4" \ ); \ printf("%s :: Result 0x%08x 0x%08x 0x%08x 0x%08x "\ "0x%08x 0x%08x 0x%08x 0x%08x\n", \ instruction, out[0], out[1], out[2], out[3], out[4],\ out[5], out[6], out[7]); \ } #define TESTINSN_bin(instruction, QD, QM, QMtype, QMval, QN, QNtype, QNval) \ { \ unsigned int out[2]; \ \ __asm__ volatile( \ "vmov.i8 " #QD ", #0x55" "\n\t" \ "vdup." #QMtype " " #QM ", %1\n\t" \ "vdup." #QNtype " " #QN ", %2\n\t" \ instruction "\n\t" \ "vstmia %0, {" #QD "}\n\t" \ : \ : "r" (out), "r" (QMval), "r" (QNval) \ : #QD, #QM, #QN, "memory" \ ); \ printf("%s :: Qd 0x%08x 0x%08x Qm (" #QMtype ")0x%08x" \ " Qn (" #QNtype ")0x%08x\n", \ instruction, out[1], out[0], QMval, QNval); \ } #define TESTINSN_bin_f64(instruction, QD, QM, QMtype, QMval0, QMval1, QN, QNtype, QNval0, QNval1) \ { \ unsigned int out[2]; \ \ __asm__ volatile( \ "vdup.i32 " #QD ", %5\n\t" \ "vmov " #QM ", %1, %2 \n\t" \ "vmov " #QN ", %3, %4 \n\t" \ instruction "\n\t" \ "vstmia %0, {" #QD "}\n\t" \ : \ : "r" (out), "r" (QMval0), "r" (QMval1), "r" (QNval0), "r" (QNval1), "r"(0x3f800000) \ : #QD, #QM, #QN, "memory" \ ); \ printf("%s :: Qd 0x%08x 0x%08x Qm 0x%08x %08x" \ " Qn 0x%08x %08x\n", \ instruction, out[1], out[0], QMval1, QMval0, QNval1, QNval0); \ } #define TESTINSN_bin_f32(instruction, SD, SM, SMtype, SMval, SN, SNtype, SNval) \ { \ unsigned int out[1]; \ \ __asm__ volatile( \ "vmov.f32 " #SM ", %1\n\t" \ "vmov.f32 " #SN ", %2\n\t" \ "vmov.f32 " #SD ", %3\n\t" \ instruction "\n\t" \ "vstmia %0, {" #SD "}\n\t" \ : \ : "r" (out), "r" (SMval), "r" (SNval), "r" (0xaaaaaaaa) \ : #SD, #SM, #SN, "memory" \ ); \ printf("%s :: Sd 0x%08x Sm (" #SMtype ")0x%08x" \ " Sn (" #SNtype ")0x%08x\n", \ instruction, out[0], SMval, SNval); \ } #define TESTINSN_cmp_f64(instruction, DD, DDval0, DDval1, DM, DMval0, DMval1) \ { \ unsigned int out[1]; \ \ __asm__ volatile( \ "vmov " #DD ", %1, %2\n\t" \ "vmov " #DM ", %3, %4\n\t" \ "mov r4, #0\n\t" \ MOVE_to_FPSCR_from_R4 \ instruction "\n\t" \ MOVE_to_R4_from_FPSCR \ "str r4, [%0]\n\t" \ : \ : "r" (out), "r" (DDval0), "r" (DDval1),"r" (DMval0), "r" (DMval1) \ : #DD, #DM, "r4", "memory" \ ); \ printf("%s :: FPSCR 0x%08x Dd 0x%08x %08x" \ " Dm 0x%08x %08x\n", \ instruction, out[0] & 0xffffff60, DDval1, DDval0, DMval1, DMval0); \ } #define TESTINSN_cmp_f32(instruction, SD, SDval, SM, SMval) \ { \ unsigned int out[1]; \ \ __asm__ volatile( \ "vmov " #SD ", %1\n\t" \ "vmov " #SM ", %2\n\t" \ "mov r4, #0\n\t" \ MOVE_to_FPSCR_from_R4 \ instruction "\n\t" \ MOVE_to_R4_from_FPSCR \ "str r4, [%0]\n\t" \ : \ : "r" (out), "r" (SDval),"r" (SMval) \ : #SD, #SM, "r4", "memory" \ ); \ printf("%s :: FPSCR 0x%01x Sd 0x%08x" \ " Sm 0x%08x\n", \ instruction, (out[0] & 0xf0000000) >> 28, SDval, SMval); \ } #define TESTINSN_cmpz_f32(instruction, SD, SDval) \ { \ unsigned int out[1]; \ \ __asm__ volatile( \ "vmov " #SD ", %1\n\t" \ instruction ", #0\n\t" \ MOVE_to_R4_from_FPSCR \ "vmov " #SD ", r4\n\t" \ "vstmia %0, {" #SD "}\n\t" \ : \ : "r" (out), "r" (SDval)\ : #SD, "r4", "memory" \ ); \ printf("%s :: FPSCR 0x%08x Sd 0x%08x\n", \ instruction, out[0] & 0xffffff60, SDval); \ } #define TESTINSN_cmpz_f64(instruction, DD, DDval0, DDval1) \ { \ unsigned int out[1]; \ \ __asm__ volatile( \ "vmov " #DD ", %1, %2\n\t" \ instruction ", #0\n\t" \ MOVE_to_R4_from_FPSCR \ "str r4, [%0]\n\t" \ : \ : "r" (out), "r" (DDval0), "r" (DDval1) \ : #DD, "r4", "memory" \ ); \ printf("%s :: FPSCR 0x%08x Dd 0x%08x %08x\n", \ instruction, out[0] & 0xffffff60, DDval1, DDval0); \ } static void do_vldm_vstm_check(void) { int i; const char *format = "\t0x%08x\n"; unsigned int data[] = { 0x1a1b1c1d, 0x2a2b2c2d, 0x3a3b3c3d, 0x4a4b4c4d, 0x5a5b5c5d, 0x6a6b6c6d, 0x7a7b7c7d, 0x8a8b8c8d, 0x9a9b9c9d, 0xaaabacad, 0xbabbbcbd, 0xcacbcccd, 0xdadbdcdd, 0xeaebeced, 0xfafbfcfd, 0x0a0b0c0d }; unsigned int res; printf("do_vldm_vstm_check:\n"); __asm__ volatile( "mov r1, %0\n\t" "vldmia r1!, {s0, s1, s2, s3}\n\t" "mov r0, %1\n\t" "sub r1, r1, %0\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "vmov r1, s2\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "vmov r1, s3\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "vmov r1, s0\n\t" "mov r3, r1\n\t" "bl printf\n\t" /* --- */ "add r1, %0, #32\n\t" "vldmdb r1!, {s5, s6}\n\t" "mov r0, %1\n\t" "sub r1, r1, %0\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "vmov r1, s5\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "vmov r1, s6\n\t" "mov r3, r1\n\t" "bl printf\n\t" /* --- */ "add r1, %0, #4\n\t" "vldmia r1, {s0, s1, s2, s3}\n\t" "mov r0, %1\n\t" "sub r1, r1, %0\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "vmov r1, s2\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "vmov r1, s3\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "vmov r1, s0\n\t" "mov r3, r1\n\t" "bl printf\n\t" /* --- */ "add r1, %0, #48\n\t" "vldmia r1!, {d30, d31}\n\t" "mov r0, %1\n\t" "sub r1, r1, %0\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "vmov r1, r5, d30\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "mov r1, r5\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "vmov r1, r5, d31\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "mov r1, r5\n\t" "mov r3, r1\n\t" "bl printf\n\t" /* --- */ "add r1, %0, #44\n\t" "vldmia r1, {d30, d31}\n\t" "mov r0, %1\n\t" "sub r1, r1, %0\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "vmov r1, r5, d30\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "mov r1, r5\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "vmov r1, r5, d31\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "mov r1, r5\n\t" "mov r3, r1\n\t" "bl printf\n\t" /* --- */ "add r1, %0, #40\n\t" "vldmdb r1!, {d30, d31}\n\t" "mov r0, %1\n\t" "sub r1, r1, %0\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "vmov r1, r5, d30\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "mov r1, r5\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "vmov r1, r5, d31\n\t" "mov r3, r1\n\t" "bl printf\n\t" "mov r0, %1\n\t" "mov r1, r5\n\t" "mov r3, r1\n\t" "bl printf\n\t" /* --- */ "mov r0, #0x55\n\t" "vmov s0, r0\n\t" "mov r0, #0x56\n\t" "vmov s1, r0\n\t" "mov r0, #0x57\n\t" "vmov s2, r0\n\t" "mov r0, #0x58\n\t" "vmov s3, r0\n\t" "add r1, %0, #0\n\t" "vstmia r1!, {s0, s1, s2, s3}\n\t" "mov r0, %1\n\t" "sub r1, r1, %0\n\t" "mov r3, r1\n\t" "bl printf\n\t" /* --- */ "mov r0, #0x65\n\t" "vmov s16, r0\n\t" "mov r0, #0x66\n\t" "vmov s17, r0\n\t" "add r1, %0, #16\n\t" "vstmia r1, {s16, s17}\n\t" "mov r0, %1\n\t" "sub r1, r1, %0\n\t" "mov r3, r1\n\t" "bl printf\n\t" /* --- */ "mov r0, #0x75\n\t" "vmov s16, r0\n\t" "mov r0, #0x76\n\t" "vmov s17, r0\n\t" "add r1, %0, #32\n\t" "vstmdb r1!, {s16, s17}\n\t" "mov r0, %1\n\t" "sub r1, r1, %0\n\t" "mov r3, r1\n\t" "bl printf\n\t" /* --- */ "mov r0, #0x42\n\t" "mov r1, #0x43\n\t" "vmov d30, r0, r1\n\t" "mov r0, #0x40\n\t" "mov r1, #0x41\n\t" "vmov d31, r0, r1\n\t" "mov r0, #0x57\n\t" "add r1, %0, #32\n\t" "vstmia r1!, {d30, d31}\n\t" "mov r0, %1\n\t" "sub r1, r1, %0\n\t" "mov r3, r1\n\t" "bl printf\n\t" /* --- */ "mov r0, #0x32\n\t" "mov r1, #0x33\n\t" "vmov d10, r0, r1\n\t" "mov r0, #0x57\n\t" "add r1, %0, #48\n\t" "vstmia r1, {d10}\n\t" "mov r0, %1\n\t" "sub r1, r1, %0\n\t" "mov r3, r1\n\t" "bl printf\n\t" /* --- */ "mov r0, #0x22\n\t" "mov r1, #0x23\n\t" "vmov d10, r0, r1\n\t" "mov r0, #0x57\n\t" "add r1, %0, #64\n\t" "vstmdb r1!, {d10}\n\t" "mov r0, %1\n\t" "sub r1, r1, %0\n\t" "mov r3, r1\n\t" "bl printf\n\t" : : "r" (data), "r" (format), "r"(&res) : "r0", "r1", "r2", "r3", "r5", "r12", "r14", "memory", "s0", "s1", "s2", "s3", "s5", "s6", "s16", "s17", "d10", "d30", "d31" ); printf("data:\n"); for (i = 0; i < 16; i++) { printf("\t0x%08x\n", data[i]); } } int main(int argc, char **argv) { do_vldm_vstm_check(); printf("---- VMOV (ARM core register to scalar) ----\n"); TESTINSN_core_to_scalar("vmov.32 d0[0], r5", d0, r5, f2u(13)); TESTINSN_core_to_scalar("vmov.32 d1[1], r6", d1, r6, 0x12); TESTINSN_core_to_scalar("vmov.32 d20[0], r5", d20, r5, f2u(NAN)); TESTINSN_core_to_scalar("vmov.32 d29[1], r6", d29, r6, f2u(172)); TESTINSN_core_to_scalar("vmov.32 d30[0], r5", d30, r5, f2u(INFINITY)); TESTINSN_core_to_scalar("vmov.32 d11[1], r6", d11, r6, f2u(-INFINITY)); TESTINSN_core_to_scalar("vmov.32 d18[0], r5", d11, r5, f2u(653)); TESTINSN_core_to_scalar("vmov.32 d9[1], r6", d9, r6, 12); TESTINSN_core_to_scalar("vmov.16 d0[0], r5", d0, r5, 13); TESTINSN_core_to_scalar("vmov.16 d14[1], r5", d14, r5, f2u(NAN)); TESTINSN_core_to_scalar("vmov.16 d28[2], r6", d28, r6, 14); TESTINSN_core_to_scalar("vmov.16 d30[3], r1", d30, r1, 17); TESTINSN_core_to_scalar("vmov.16 d0[0], r5", d0, r5, f2u(INFINITY)); TESTINSN_core_to_scalar("vmov.16 d7[1], r5", d7, r5, f2u(-INFINITY)); TESTINSN_core_to_scalar("vmov.16 d21[2], r6", d21, r6, 14); TESTINSN_core_to_scalar("vmov.16 d17[3], r1", d17, r1, 17); TESTINSN_core_to_scalar("vmov.8 d0[0], r5", d0, r5, 13); TESTINSN_core_to_scalar("vmov.8 d10[1], r5", d10, r5, f2u(NAN)); TESTINSN_core_to_scalar("vmov.8 d20[2], r5", d20, r5, f2u(INFINITY)); TESTINSN_core_to_scalar("vmov.8 d30[3], r5", d30, r5, f2u(-INFINITY)); TESTINSN_core_to_scalar("vmov.8 d13[4], r5", d13, r5, 213); TESTINSN_core_to_scalar("vmov.8 d17[5], r5", d17, r5, 1343); TESTINSN_core_to_scalar("vmov.8 d24[6], r5", d24, r5, 111); TESTINSN_core_to_scalar("vmov.8 d29[7], r5", d29, r5, 173); printf("---- VMOV (scalar to ARM core register) ----\n"); TESTINSN_scalar_to_core("vmov.32 r5, d0[0]", r5, d0, i32, f2u(NAN)); TESTINSN_scalar_to_core("vmov.32 r6, d5[1]", r6, d5, i32, f2u(INFINITY)); TESTINSN_scalar_to_core("vmov.32 r4, d10[0]", r4, d10, i32, f2u(-INFINITY)); TESTINSN_scalar_to_core("vmov.32 r5, d15[1]", r5, d15, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.32 r9, d20[0]", r9, d20, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.32 r8, d25[1]", r8, d25, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.32 r0, d30[0]", r0, d30, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.32 r2, d19[1]", r2, d19, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.u16 r5, d31[0]", r5, d31, i32, f2u(NAN)); TESTINSN_scalar_to_core("vmov.u16 r3, d30[1]", r3, d30, i32, f2u(INFINITY)); TESTINSN_scalar_to_core("vmov.u16 r6, d21[2]", r6, d21, i32, f2u(-INFINITY)); TESTINSN_scalar_to_core("vmov.u16 r9, d26[3]", r9, d26, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.u16 r12, d11[0]", r12, d11, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.u16 r0, d10[1]", r0, d10, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.u16 r6, d1[2]", r6, d1, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.u16 r8, d5[3]", r8, d5, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.u8 r2, d4[0]", r2, d4, i32, f2u(NAN)); TESTINSN_scalar_to_core("vmov.u8 r6, d14[1]", r6, d14, i32, f2u(INFINITY)); TESTINSN_scalar_to_core("vmov.u8 r9, d24[2]", r9, d24, i32, f2u(-INFINITY)); TESTINSN_scalar_to_core("vmov.u8 r8, d31[3]", r8, d31, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.u8 r10, d29[4]", r10, d29, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.u8 r3, d19[5]", r3, d19, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.u8 r12, d12[6]", r12, d12, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.u8 r10, d18[4]", r10, d18, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.s16 r5, d31[0]", r5, d31, i32, f2u(NAN)); TESTINSN_scalar_to_core("vmov.s16 r3, d30[1]", r3, d30, i32, f2u(INFINITY)); TESTINSN_scalar_to_core("vmov.s16 r6, d21[2]", r6, d21, i32, f2u(-INFINITY)); TESTINSN_scalar_to_core("vmov.s16 r9, d26[3]", r9, d26, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.s16 r4, d11[0]", r4, d11, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.s16 r0, d10[1]", r0, d10, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.s16 r6, d1[2]", r6, d1, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.s16 r8, d5[3]", r8, d5, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.s8 r2, d4[0]", r2, d4, i32, f2u(NAN)); TESTINSN_scalar_to_core("vmov.s8 r6, d14[1]", r6, d14, i32, f2u(INFINITY)); TESTINSN_scalar_to_core("vmov.s8 r9, d24[2]", r9, d24, i32, f2u(-INFINITY)); TESTINSN_scalar_to_core("vmov.s8 r8, d31[3]", r8, d31, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.s8 r6, d29[4]", r6, d29, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.s8 r3, d19[5]", r3, d19, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.s8 r12, d12[6]", r12, d12, i32, 0x11223344); TESTINSN_scalar_to_core("vmov.s8 r10, d18[7]", r10, d18, i32, 0x11223344); printf("---- VMLA (fp) ----\n"); TESTINSN_bin_f64("vmla.f64 d0, d11, d12", d0, d11, i32, f2u0(-INFINITY), f2u1(-INFINITY), d12, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vmla.f64 d7, d1, d6", d7, d1, i32, f2u0(INFINITY), f2u1(INFINITY), d6, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vmla.f64 d0, d5, d2", d0, d5, i32, f2u0(NAN), f2u1(NAN), d2, i32, f2u0(-1.0), f2u1(-1.0)); TESTINSN_bin_f64("vmla.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vmla.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vmla.f64 d20, d25, d22", d20, d25, i32, f2u0(23.04), f2u1(23.04), d22, i32, f2u0(-45.5687), f2u1(-45.5687)); TESTINSN_bin_f64("vmla.f64 d23, d24, d25", d23, d24, i32, f2u0(-347856.475), f2u1(-347856.475), d25, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vmla.f64 d20, d31, d12", d20, d31, i32, f2u0(48755), f2u1(48755), d12, i32, f2u0(-45786.476), f2u1(-45786.476)); TESTINSN_bin_f64("vmla.f64 d19, d25, d27", d19, d25, i32, f2u0(95867.76), f2u1(95867.76), d27, i32, f2u0(17065), f2u1(17065)); TESTINSN_bin_f64("vmla.f64 d30, d15, d2", d30, d15, i32, f2u0(-45667.24), f2u1(-45667.24), d2, i32, f2u0(-248562.76), f2u1(-248562.76)); TESTINSN_bin_f64("vmla.f64 d23, d24, d5", d23, d24, i32, f2u0(24), f2u1(24), d5, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vmla.f64 d10, d11, d2", d10, d11, i32, f2u0(48755), f2u1(48755), d2, i32, f2u0(1089), f2u1(1089)); TESTINSN_bin_f64("vmla.f64 d29, d15, d7", d29, d15, i32, f2u0(214), f2u1(214), d7, i32, f2u0(1752065), f2u1(1752065)); TESTINSN_bin_f64("vmla.f64 d30, d11, d12", d30, d11, i32, f2u0(356047.56), f2u1(356047.56), d12, i32, f2u0(5867.009), f2u1(5867.009)); TESTINSN_bin_f64("vmla.f64 d27, d21, d6", d27, d21, i32, f2u0(34.00046), f2u1(34.00046), d6, i32, f2u0(0.0024575), f2u1(0.0024575)); TESTINSN_bin_f64("vmla.f64 d30, d31, d2", d30, d31, i32, f2u0(2754), f2u1(2754), d2, i32, f2u0(107), f2u1(107)); TESTINSN_bin_f64("vmla.f64 d13, d24, d5", d13, d24, i32, f2u0(874), f2u1(874), d5, i32, f2u0(1384.6), f2u1(1384.6)); TESTINSN_bin_f64("vmla.f64 d10, d11, d2", d10, d11, i32, f2u0(487.587), f2u1(487.587), d2, i32, f2u0(109), f2u1(109)); TESTINSN_bin_f64("vmla.f64 d29, d25, d7", d29, d25, i32, f2u0(-INFINITY), f2u1(-INFINITY), d7, i32, f2u0(1752), f2u1(1752)); TESTINSN_bin_f64("vmla.f64 d0, d11, d12", d0, d11, i32, f2u0(INFINITY), f2u1(INFINITY), d12, i32, f2u0(-5786.47), f2u1(-5786.47)); TESTINSN_bin_f64("vmla.f64 d27, d21, d16", d27, d21, i32, f2u0(456.2489562), f2u1(456.2489562), d16, i32, f2u0(-7.2945676), f2u1(-7.2945676)); TESTINSN_bin_f64("vmla.f64 d0, d5, d2", d0, d5, i32, f2u0(INFINITY), f2u1(INFINITY), d2, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_bin_f64("vmla.f64 d20, d13, d15", d20, d13, i32, f2u0(-INFINITY), f2u1(-INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vmla.f64 d10, d23, d15", d10, d23, i32, f2u0(INFINITY), f2u1(INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f32("vmla.f32 s0, s11, s12", s0, s11, i32, f2u(-INFINITY), s12, i32, f2u(NAN)); TESTINSN_bin_f32("vmla.f32 s7, s1, s6", s7, s1, i32, f2u(INFINITY), s6, i32, f2u(NAN)); TESTINSN_bin_f32("vmla.f32 s0, s5, s2", s0, s5, i32, f2u(NAN), s2, i32, f2u(-1.0)); TESTINSN_bin_f32("vmla.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vmla.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(NAN)); TESTINSN_bin_f32("vmla.f32 s20, s25, s22", s20, s25, i32, f2u(23.04), s22, i32, f2u(-45.5687)); TESTINSN_bin_f32("vmla.f32 s23, s24, s25", s23, s24, i32, f2u(-347856.475), s25, i32, f2u(1346)); TESTINSN_bin_f32("vmla.f32 s20, s31, s12", s20, s31, i32, f2u(48755), s12, i32, f2u(-45786.476)); TESTINSN_bin_f32("vmla.f32 s19, s25, s27", s19, s25, i32, f2u(95867.76), s27, i32, f2u(17065)); TESTINSN_bin_f32("vmla.f32 s30, s15, s2", s30, s15, i32, f2u(-45667.24), s2, i32, f2u(-248562.76)); TESTINSN_bin_f32("vmla.f32 s23, s24, s5", s23, s24, i32, f2u(24), s5, i32, f2u(1346)); TESTINSN_bin_f32("vmla.f32 s10, s11, s2", s10, s11, i32, f2u(48755), s2, i32, f2u(1089)); TESTINSN_bin_f32("vmla.f32 s29, s15, s7", s29, s15, i32, f2u(214), s7, i32, f2u(1752065)); TESTINSN_bin_f32("vmla.f32 s30, s11, s12", s30, s11, i32, f2u(356047.56), s12, i32, f2u(5867.009)); TESTINSN_bin_f32("vmla.f32 s27, s21, s6", s27, s21, i32, f2u(34.00046), s6, i32, f2u(0.0024575)); TESTINSN_bin_f32("vmla.f32 s30, s31, s2", s30, s31, i32, f2u(2754), s2, i32, f2u(107)); TESTINSN_bin_f32("vmla.f32 s13, s24, s5", s13, s24, i32, f2u(874), s5, i32, f2u(1384.6)); TESTINSN_bin_f32("vmla.f32 s10, s11, s2", s10, s11, i32, f2u(487.587), s2, i32, f2u(109)); TESTINSN_bin_f32("vmla.f32 s29, s25, s7", s29, s25, i32, f2u(-INFINITY), s7, i32, f2u(1752)); TESTINSN_bin_f32("vmla.f32 s0, s11, s12", s0, s11, i32, f2u(INFINITY), s12, i32, f2u(-5786.47)); TESTINSN_bin_f32("vmla.f32 s27, s21, s16", s27, s21, i32, f2u(456.2489562), s16, i32, f2u(-7.2945676)); TESTINSN_bin_f32("vmla.f32 s0, s5, s2", s0, s5, i32, f2u(INFINITY), s2, i32, f2u(-INFINITY)); TESTINSN_bin_f32("vmla.f32 s20, s13, s15", s20, s13, i32, f2u(-INFINITY), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vmla.f32 s10, s23, s15", s10, s23, i32, f2u(INFINITY), s15, i32, f2u(0.0)); printf("---- VNMLA (fp) ----\n"); TESTINSN_bin_f64("vnmla.f64 d0, d11, d12", d0, d11, i32, f2u0(-INFINITY), f2u1(-INFINITY), d12, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vnmla.f64 d7, d1, d6", d7, d1, i32, f2u0(INFINITY), f2u1(INFINITY), d6, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vnmla.f64 d0, d5, d2", d0, d5, i32, f2u0(NAN), f2u1(NAN), d2, i32, f2u0(-1.0), f2u1(-1.0)); TESTINSN_bin_f64("vnmla.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vnmla.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vnmla.f64 d20, d25, d22", d20, d25, i32, f2u0(23.04), f2u1(23.04), d22, i32, f2u0(-45.5687), f2u1(-45.5687)); TESTINSN_bin_f64("vnmla.f64 d23, d24, d25", d23, d24, i32, f2u0(-347856.475), f2u1(-347856.475), d25, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vnmla.f64 d20, d31, d12", d20, d31, i32, f2u0(48755), f2u1(48755), d12, i32, f2u0(-45786.476), f2u1(-45786.476)); TESTINSN_bin_f64("vnmla.f64 d19, d25, d27", d19, d25, i32, f2u0(95867.76), f2u1(95867.76), d27, i32, f2u0(17065), f2u1(17065)); TESTINSN_bin_f64("vnmla.f64 d30, d15, d2", d30, d15, i32, f2u0(-45667.24), f2u1(-45667.24), d2, i32, f2u0(-248562.76), f2u1(-248562.76)); TESTINSN_bin_f64("vnmla.f64 d23, d24, d5", d23, d24, i32, f2u0(24), f2u1(24), d5, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vnmla.f64 d10, d11, d2", d10, d11, i32, f2u0(48755), f2u1(48755), d2, i32, f2u0(1089), f2u1(1089)); TESTINSN_bin_f64("vnmla.f64 d29, d15, d7", d29, d15, i32, f2u0(214), f2u1(214), d7, i32, f2u0(1752065), f2u1(1752065)); TESTINSN_bin_f64("vnmla.f64 d30, d11, d12", d30, d11, i32, f2u0(356047.56), f2u1(356047.56), d12, i32, f2u0(5867.009), f2u1(5867.009)); TESTINSN_bin_f64("vnmla.f64 d27, d21, d6", d27, d21, i32, f2u0(34.00046), f2u1(34.00046), d6, i32, f2u0(0.0024575), f2u1(0.0024575)); TESTINSN_bin_f64("vnmla.f64 d30, d31, d2", d30, d31, i32, f2u0(2754), f2u1(2754), d2, i32, f2u0(107), f2u1(107)); TESTINSN_bin_f64("vnmla.f64 d13, d24, d5", d13, d24, i32, f2u0(874), f2u1(874), d5, i32, f2u0(1384.6), f2u1(1384.6)); TESTINSN_bin_f64("vnmla.f64 d10, d11, d2", d10, d11, i32, f2u0(487.587), f2u1(487.587), d2, i32, f2u0(109), f2u1(109)); TESTINSN_bin_f64("vnmla.f64 d29, d25, d7", d29, d25, i32, f2u0(-INFINITY), f2u1(-INFINITY), d7, i32, f2u0(1752), f2u1(1752)); TESTINSN_bin_f64("vnmla.f64 d0, d11, d12", d0, d11, i32, f2u0(INFINITY), f2u1(INFINITY), d12, i32, f2u0(-5786.47), f2u1(-5786.47)); TESTINSN_bin_f64("vnmla.f64 d27, d21, d16", d27, d21, i32, f2u0(456.2489562), f2u1(456.2489562), d16, i32, f2u0(-7.2945676), f2u1(-7.2945676)); TESTINSN_bin_f64("vnmla.f64 d0, d5, d2", d0, d5, i32, f2u0(INFINITY), f2u1(INFINITY), d2, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_bin_f64("vnmla.f64 d20, d13, d15", d20, d13, i32, f2u0(-INFINITY), f2u1(-INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vnmla.f64 d10, d23, d15", d10, d23, i32, f2u0(INFINITY), f2u1(INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f32("vnmla.f32 s0, s11, s12", s0, s11, i32, f2u(-INFINITY), s12, i32, f2u(NAN)); TESTINSN_bin_f32("vnmla.f32 s7, s1, s6", s7, s1, i32, f2u(INFINITY), s6, i32, f2u(NAN)); TESTINSN_bin_f32("vnmla.f32 s0, s5, s2", s0, s5, i32, f2u(NAN), s2, i32, f2u(-1.0)); TESTINSN_bin_f32("vnmla.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vnmla.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(NAN)); TESTINSN_bin_f32("vnmla.f32 s20, s25, s22", s20, s25, i32, f2u(23.04), s22, i32, f2u(-45.5687)); TESTINSN_bin_f32("vnmla.f32 s23, s24, s25", s23, s24, i32, f2u(-347856.475), s25, i32, f2u(1346)); TESTINSN_bin_f32("vnmla.f32 s20, s31, s12", s20, s31, i32, f2u(48755), s12, i32, f2u(-45786.476)); TESTINSN_bin_f32("vnmla.f32 s19, s25, s27", s19, s25, i32, f2u(95867.76), s27, i32, f2u(17065)); TESTINSN_bin_f32("vnmla.f32 s30, s15, s2", s30, s15, i32, f2u(-45667.24), s2, i32, f2u(-248562.76)); TESTINSN_bin_f32("vnmla.f32 s23, s24, s5", s23, s24, i32, f2u(24), s5, i32, f2u(1346)); TESTINSN_bin_f32("vnmla.f32 s10, s11, s2", s10, s11, i32, f2u(48755), s2, i32, f2u(1089)); TESTINSN_bin_f32("vnmla.f32 s29, s15, s7", s29, s15, i32, f2u(214), s7, i32, f2u(1752065)); TESTINSN_bin_f32("vnmla.f32 s30, s11, s12", s30, s11, i32, f2u(356047.56), s12, i32, f2u(5867.009)); TESTINSN_bin_f32("vnmla.f32 s27, s21, s6", s27, s21, i32, f2u(34.00046), s6, i32, f2u(0.0024575)); TESTINSN_bin_f32("vnmla.f32 s30, s31, s2", s30, s31, i32, f2u(2754), s2, i32, f2u(107)); TESTINSN_bin_f32("vnmla.f32 s13, s24, s5", s13, s24, i32, f2u(874), s5, i32, f2u(1384.6)); TESTINSN_bin_f32("vnmla.f32 s10, s11, s2", s10, s11, i32, f2u(487.587), s2, i32, f2u(109)); TESTINSN_bin_f32("vnmla.f32 s29, s25, s7", s29, s25, i32, f2u(-INFINITY), s7, i32, f2u(1752.)); TESTINSN_bin_f32("vnmla.f32 s0, s11, s12", s0, s11, i32, f2u(INFINITY), s12, i32, f2u(-5786.47)); TESTINSN_bin_f32("vnmla.f32 s27, s21, s16", s27, s21, i32, f2u(456.2489562), s16, i32, f2u(-7.2945676)); TESTINSN_bin_f32("vnmla.f32 s0, s5, s2", s0, s5, i32, f2u(INFINITY), s2, i32, f2u(-INFINITY)); TESTINSN_bin_f32("vnmla.f32 s20, s13, s15", s20, s13, i32, f2u(-INFINITY), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vnmla.f32 s10, s23, s15", s10, s23, i32, f2u(INFINITY), s15, i32, f2u(0.0)); printf("---- VMLS (fp) ----\n"); TESTINSN_bin_f64("vmls.f64 d0, d11, d12", d0, d11, i32, f2u0(-INFINITY), f2u1(-INFINITY), d12, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vmls.f64 d7, d1, d6", d7, d1, i32, f2u0(INFINITY), f2u1(INFINITY), d6, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vmls.f64 d0, d5, d2", d0, d5, i32, f2u0(NAN), f2u1(NAN), d2, i32, f2u0(-1.0), f2u1(-1.0)); TESTINSN_bin_f64("vmls.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vmls.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vmls.f64 d20, d25, d22", d20, d25, i32, f2u0(23.04), f2u1(23.04), d22, i32, f2u0(-45.5687), f2u1(-45.5687)); TESTINSN_bin_f64("vmls.f64 d23, d24, d25", d23, d24, i32, f2u0(-347856.475), f2u1(-347856.475), d25, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vmls.f64 d20, d31, d12", d20, d31, i32, f2u0(48755), f2u1(48755), d12, i32, f2u0(-45786.476), f2u1(-45786.476)); TESTINSN_bin_f64("vmls.f64 d19, d25, d27", d19, d25, i32, f2u0(95867.76), f2u1(95867.76), d27, i32, f2u0(17065), f2u1(17065)); TESTINSN_bin_f64("vmls.f64 d30, d15, d2", d30, d15, i32, f2u0(-45667.24), f2u1(-45667.24), d2, i32, f2u0(-248562.76), f2u1(-248562.76)); TESTINSN_bin_f64("vmls.f64 d23, d24, d5", d23, d24, i32, f2u0(24), f2u1(24), d5, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vmls.f64 d10, d11, d2", d10, d11, i32, f2u0(48755), f2u1(48755), d2, i32, f2u0(1089), f2u1(1089)); TESTINSN_bin_f64("vmls.f64 d29, d15, d7", d29, d15, i32, f2u0(214), f2u1(214), d7, i32, f2u0(1752065), f2u1(1752065)); TESTINSN_bin_f64("vmls.f64 d30, d11, d12", d30, d11, i32, f2u0(356047.56), f2u1(356047.56), d12, i32, f2u0(5867.009), f2u1(5867.009)); TESTINSN_bin_f64("vmls.f64 d27, d21, d6", d27, d21, i32, f2u0(34.00046), f2u1(34.00046), d6, i32, f2u0(0.0024575), f2u1(0.0024575)); TESTINSN_bin_f64("vmls.f64 d30, d31, d2", d30, d31, i32, f2u0(2754), f2u1(2754), d2, i32, f2u0(107), f2u1(107)); TESTINSN_bin_f64("vmls.f64 d13, d24, d5", d13, d24, i32, f2u0(874), f2u1(874), d5, i32, f2u0(1384.6), f2u1(1384.6)); TESTINSN_bin_f64("vmls.f64 d10, d11, d2", d10, d11, i32, f2u0(487.587), f2u1(487.587), d2, i32, f2u0(109), f2u1(109)); TESTINSN_bin_f64("vmls.f64 d29, d25, d7", d29, d25, i32, f2u0(-INFINITY), f2u1(-INFINITY), d7, i32, f2u0(1752), f2u1(1752)); TESTINSN_bin_f64("vmls.f64 d0, d11, d12", d0, d11, i32, f2u0(INFINITY), f2u1(INFINITY), d12, i32, f2u0(-5786.47), f2u1(-5786.47)); TESTINSN_bin_f64("vmls.f64 d27, d21, d16", d27, d21, i32, f2u0(456.2489562), f2u1(456.2489562), d16, i32, f2u0(-7.2945676), f2u1(-7.2945676)); TESTINSN_bin_f64("vmls.f64 d0, d5, d2", d0, d5, i32, f2u0(INFINITY), f2u1(INFINITY), d2, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_bin_f64("vmls.f64 d20, d13, d15", d20, d13, i32, f2u0(-INFINITY), f2u1(-INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vmls.f64 d10, d23, d15", d10, d23, i32, f2u0(INFINITY), f2u1(INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f32("vmls.f32 s0, s11, s12", s0, s11, i32, f2u(-INFINITY), s12, i32, f2u(NAN)); TESTINSN_bin_f32("vmls.f32 s7, s1, s6", s7, s1, i32, f2u(INFINITY), s6, i32, f2u(NAN)); TESTINSN_bin_f32("vmls.f32 s0, s5, s2", s0, s5, i32, f2u(NAN), s2, i32, f2u(-1.0)); TESTINSN_bin_f32("vmls.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vmls.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(NAN)); TESTINSN_bin_f32("vmls.f32 s20, s25, s22", s20, s25, i32, f2u(23.04), s22, i32, f2u(-45.5687)); TESTINSN_bin_f32("vmls.f32 s23, s24, s25", s23, s24, i32, f2u(-347856.475), s25, i32, f2u(1346)); TESTINSN_bin_f32("vmls.f32 s20, s31, s12", s20, s31, i32, f2u(48755), s12, i32, f2u(-45786.476)); TESTINSN_bin_f32("vmls.f32 s19, s25, s27", s19, s25, i32, f2u(95867.76), s27, i32, f2u(17065)); TESTINSN_bin_f32("vmls.f32 s30, s15, s2", s30, s15, i32, f2u(-45667.24), s2, i32, f2u(-248562.76)); TESTINSN_bin_f32("vmls.f32 s23, s24, s5", s23, s24, i32, f2u(24), s5, i32, f2u(1346)); TESTINSN_bin_f32("vmls.f32 s10, s11, s2", s10, s11, i32, f2u(48755), s2, i32, f2u(1089)); TESTINSN_bin_f32("vmls.f32 s29, s15, s7", s29, s15, i32, f2u(214), s7, i32, f2u(1752065)); TESTINSN_bin_f32("vmls.f32 s30, s11, s12", s30, s11, i32, f2u(356047.56), s12, i32, f2u(5867.009)); TESTINSN_bin_f32("vmls.f32 s27, s21, s6", s27, s21, i32, f2u(34.00046), s6, i32, f2u(0.0024575)); TESTINSN_bin_f32("vmls.f32 s30, s31, s2", s30, s31, i32, f2u(2754), s2, i32, f2u(107)); TESTINSN_bin_f32("vmls.f32 s13, s24, s5", s13, s24, i32, f2u(874), s5, i32, f2u(1384.6)); TESTINSN_bin_f32("vmls.f32 s10, s11, s2", s10, s11, i32, f2u(487.587), s2, i32, f2u(109)); TESTINSN_bin_f32("vmls.f32 s29, s25, s7", s29, s25, i32, f2u(-INFINITY), s7, i32, f2u(1752)); TESTINSN_bin_f32("vmls.f32 s0, s11, s12", s0, s11, i32, f2u(INFINITY), s12, i32, f2u(-5786.47)); TESTINSN_bin_f32("vmls.f32 s27, s21, s16", s27, s21, i32, f2u(456.2489562), s16, i32, f2u(-7.2945676)); TESTINSN_bin_f32("vmls.f32 s0, s5, s2", s0, s5, i32, f2u(INFINITY), s2, i32, f2u(-INFINITY)); TESTINSN_bin_f32("vmls.f32 s20, s13, s15", s20, s13, i32, f2u(-INFINITY), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vmls.f32 s10, s23, s15", s10, s23, i32, f2u(INFINITY), s15, i32, f2u(0.0)); printf("---- VNMLS (fp) ----\n"); TESTINSN_bin_f64("vnmls.f64 d0, d11, d12", d0, d11, i32, f2u0(-INFINITY), f2u1(-INFINITY), d12, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vnmls.f64 d7, d1, d6", d7, d1, i32, f2u0(INFINITY), f2u1(INFINITY), d6, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vnmls.f64 d0, d5, d2", d0, d5, i32, f2u0(NAN), f2u1(NAN), d2, i32, f2u0(-1.0), f2u1(-1.0)); TESTINSN_bin_f64("vnmls.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vnmls.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vnmls.f64 d20, d25, d22", d20, d25, i32, f2u0(23.04), f2u1(23.04), d22, i32, f2u0(-45.5687), f2u1(-45.5687)); TESTINSN_bin_f64("vnmls.f64 d23, d24, d25", d23, d24, i32, f2u0(-347856.475), f2u1(-347856.475), d25, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vnmls.f64 d20, d31, d12", d20, d31, i32, f2u0(48755), f2u1(48755), d12, i32, f2u0(-45786.476), f2u1(-45786.476)); TESTINSN_bin_f64("vnmls.f64 d19, d25, d27", d19, d25, i32, f2u0(95867.76), f2u1(95867.76), d27, i32, f2u0(17065), f2u1(17065)); TESTINSN_bin_f64("vnmls.f64 d30, d15, d2", d30, d15, i32, f2u0(-45667.24), f2u1(-45667.24), d2, i32, f2u0(-248562.76), f2u1(-248562.76)); TESTINSN_bin_f64("vnmls.f64 d23, d24, d5", d23, d24, i32, f2u0(24), f2u1(24), d5, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vnmls.f64 d10, d11, d2", d10, d11, i32, f2u0(48755), f2u1(48755), d2, i32, f2u0(1089), f2u1(1089)); TESTINSN_bin_f64("vnmls.f64 d29, d15, d7", d29, d15, i32, f2u0(214), f2u1(214), d7, i32, f2u0(1752065), f2u1(1752065)); TESTINSN_bin_f64("vnmls.f64 d30, d11, d12", d30, d11, i32, f2u0(356047.56), f2u1(356047.56), d12, i32, f2u0(5867.009), f2u1(5867.009)); TESTINSN_bin_f64("vnmls.f64 d27, d21, d6", d27, d21, i32, f2u0(34.00046), f2u1(34.00046), d6, i32, f2u0(0.0024575), f2u1(0.0024575)); TESTINSN_bin_f64("vnmls.f64 d30, d31, d2", d30, d31, i32, f2u0(2754), f2u1(2754), d2, i32, f2u0(107), f2u1(107)); TESTINSN_bin_f64("vnmls.f64 d13, d24, d5", d13, d24, i32, f2u0(874), f2u1(874), d5, i32, f2u0(1384.6), f2u1(1384.6)); TESTINSN_bin_f64("vnmls.f64 d10, d11, d2", d10, d11, i32, f2u0(487.587), f2u1(487.587), d2, i32, f2u0(109), f2u1(109)); TESTINSN_bin_f64("vnmls.f64 d29, d25, d7", d29, d25, i32, f2u0(-INFINITY), f2u1(-INFINITY), d7, i32, f2u0(1752), f2u1(1752)); TESTINSN_bin_f64("vnmls.f64 d0, d11, d12", d0, d11, i32, f2u0(INFINITY), f2u1(INFINITY), d12, i32, f2u0(-5786.47), f2u1(-5786.47)); TESTINSN_bin_f64("vnmls.f64 d27, d21, d16", d27, d21, i32, f2u0(456.2489562), f2u1(456.2489562), d16, i32, f2u0(-7.2945676), f2u1(-7.2945676)); TESTINSN_bin_f64("vnmls.f64 d0, d5, d2", d0, d5, i32, f2u0(INFINITY), f2u1(INFINITY), d2, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_bin_f64("vnmls.f64 d20, d13, d15", d20, d13, i32, f2u0(-INFINITY), f2u1(-INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vnmls.f64 d10, d23, d15", d10, d23, i32, f2u0(INFINITY), f2u1(INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f32("vnmls.f32 s0, s11, s12", s0, s11, i32, f2u(-INFINITY), s12, i32, f2u(NAN)); TESTINSN_bin_f32("vnmls.f32 s7, s1, s6", s7, s1, i32, f2u(INFINITY), s6, i32, f2u(NAN)); TESTINSN_bin_f32("vnmls.f32 s0, s5, s2", s0, s5, i32, f2u(NAN), s2, i32, f2u(-1.0)); TESTINSN_bin_f32("vnmls.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vnmls.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(NAN)); TESTINSN_bin_f32("vnmls.f32 s20, s25, s22", s20, s25, i32, f2u(23.04), s22, i32, f2u(-45.5687)); TESTINSN_bin_f32("vnmls.f32 s23, s24, s25", s23, s24, i32, f2u(-347856.475), s25, i32, f2u(1346)); TESTINSN_bin_f32("vnmls.f32 s20, s31, s12", s20, s31, i32, f2u(48755), s12, i32, f2u(-45786.476)); TESTINSN_bin_f32("vnmls.f32 s19, s25, s27", s19, s25, i32, f2u(95867.76), s27, i32, f2u(17065)); TESTINSN_bin_f32("vnmls.f32 s30, s15, s2", s30, s15, i32, f2u(-45667.24), s2, i32, f2u(-248562.76)); TESTINSN_bin_f32("vnmls.f32 s23, s24, s5", s23, s24, i32, f2u(24), s5, i32, f2u(1346)); TESTINSN_bin_f32("vnmls.f32 s10, s11, s2", s10, s11, i32, f2u(48755), s2, i32, f2u(1089)); TESTINSN_bin_f32("vnmls.f32 s29, s15, s7", s29, s15, i32, f2u(214), s7, i32, f2u(1752065)); TESTINSN_bin_f32("vnmls.f32 s30, s11, s12", s30, s11, i32, f2u(356047.56), s12, i32, f2u(5867.009)); TESTINSN_bin_f32("vnmls.f32 s27, s21, s6", s27, s21, i32, f2u(34.00046), s6, i32, f2u(0.0024575)); TESTINSN_bin_f32("vnmls.f32 s30, s31, s2", s30, s31, i32, f2u(2754), s2, i32, f2u(107)); TESTINSN_bin_f32("vnmls.f32 s13, s24, s5", s13, s24, i32, f2u(874), s5, i32, f2u(1384.6)); TESTINSN_bin_f32("vnmls.f32 s10, s11, s2", s10, s11, i32, f2u(487.587), s2, i32, f2u(109)); TESTINSN_bin_f32("vnmls.f32 s29, s25, s7", s29, s25, i32, f2u(-INFINITY), s7, i32, f2u(1752)); TESTINSN_bin_f32("vnmls.f32 s0, s11, s12", s0, s11, i32, f2u(INFINITY), s12, i32, f2u(-5786.47)); TESTINSN_bin_f32("vnmls.f32 s27, s21, s16", s27, s21, i32, f2u(456.2489562), s16, i32, f2u(-7.2945676)); TESTINSN_bin_f32("vnmls.f32 s0, s5, s2", s0, s5, i32, f2u(INFINITY), s2, i32, f2u(-INFINITY)); TESTINSN_bin_f32("vnmls.f32 s20, s13, s15", s20, s13, i32, f2u(-INFINITY), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vnmls.f32 s10, s23, s15", s10, s23, i32, f2u(INFINITY), s15, i32, f2u(0.0)); printf("---- VMUL (fp) ----\n"); TESTINSN_bin_f64("vmul.f64 d0, d11, d12", d0, d11, i32, f2u0(-INFINITY), f2u1(-INFINITY), d12, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vmul.f64 d7, d1, d6", d7, d1, i32, f2u0(INFINITY), f2u1(INFINITY), d6, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vmul.f64 d0, d5, d2", d0, d5, i32, f2u0(NAN), f2u1(NAN), d2, i32, f2u0(-1.0), f2u1(-1.0)); TESTINSN_bin_f64("vmul.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vmul.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vmul.f64 d20, d25, d22", d20, d25, i32, f2u0(23.04), f2u1(23.04), d22, i32, f2u0(-45.5687), f2u1(-45.5687)); TESTINSN_bin_f64("vmul.f64 d23, d24, d25", d23, d24, i32, f2u0(-347856.475), f2u1(-347856.475), d25, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vmul.f64 d20, d31, d12", d20, d31, i32, f2u0(48755), f2u1(48755), d12, i32, f2u0(-45786.476), f2u1(-45786.476)); TESTINSN_bin_f64("vmul.f64 d19, d25, d27", d19, d25, i32, f2u0(95867.76), f2u1(95867.76), d27, i32, f2u0(17065), f2u1(17065)); TESTINSN_bin_f64("vmul.f64 d30, d15, d2", d30, d15, i32, f2u0(-45667.24), f2u1(-45667.24), d2, i32, f2u0(-248562.76), f2u1(-248562.76)); TESTINSN_bin_f64("vmul.f64 d23, d24, d5", d23, d24, i32, f2u0(24), f2u1(24), d5, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vmul.f64 d10, d11, d2", d10, d11, i32, f2u0(48755), f2u1(48755), d2, i32, f2u0(1089), f2u1(1089)); TESTINSN_bin_f64("vmul.f64 d29, d15, d7", d29, d15, i32, f2u0(214), f2u1(214), d7, i32, f2u0(1752065), f2u1(1752065)); TESTINSN_bin_f64("vmul.f64 d30, d11, d12", d30, d11, i32, f2u0(356047.56), f2u1(356047.56), d12, i32, f2u0(5867.009), f2u1(5867.009)); TESTINSN_bin_f64("vmul.f64 d27, d21, d6", d27, d21, i32, f2u0(34.00046), f2u1(34.00046), d6, i32, f2u0(0.0024575), f2u1(0.0024575)); TESTINSN_bin_f64("vmul.f64 d30, d31, d2", d30, d31, i32, f2u0(2754), f2u1(2754), d2, i32, f2u0(107), f2u1(107)); TESTINSN_bin_f64("vmul.f64 d13, d24, d5", d13, d24, i32, f2u0(874), f2u1(874), d5, i32, f2u0(1384.6), f2u1(1384.6)); TESTINSN_bin_f64("vmul.f64 d10, d11, d2", d10, d11, i32, f2u0(487.587), f2u1(487.587), d2, i32, f2u0(109), f2u1(109)); TESTINSN_bin_f64("vmul.f64 d29, d25, d7", d29, d25, i32, f2u0(-INFINITY), f2u1(-INFINITY), d7, i32, f2u0(1752), f2u1(1752)); TESTINSN_bin_f64("vmul.f64 d0, d11, d12", d0, d11, i32, f2u0(INFINITY), f2u1(INFINITY), d12, i32, f2u0(-5786.47), f2u1(-5786.47)); TESTINSN_bin_f64("vmul.f64 d27, d21, d16", d27, d21, i32, f2u0(456.2489562), f2u1(456.2489562), d16, i32, f2u0(-7.2945676), f2u1(-7.2945676)); TESTINSN_bin_f64("vmul.f64 d0, d5, d2", d0, d5, i32, f2u0(INFINITY), f2u1(INFINITY), d2, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_bin_f64("vmul.f64 d20, d13, d15", d20, d13, i32, f2u0(-INFINITY), f2u1(-INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vmul.f64 d10, d23, d15", d10, d23, i32, f2u0(INFINITY), f2u1(INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f32("vmul.f32 s0, s11, s12", s0, s11, i32, f2u(-INFINITY), s12, i32, f2u(NAN)); TESTINSN_bin_f32("vmul.f32 s7, s1, s6", s7, s1, i32, f2u(INFINITY), s6, i32, f2u(NAN)); TESTINSN_bin_f32("vmul.f32 s0, s5, s2", s0, s5, i32, f2u(NAN), s2, i32, f2u(-1.0)); TESTINSN_bin_f32("vmul.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vmul.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(NAN)); TESTINSN_bin_f32("vmul.f32 s20, s25, s22", s20, s25, i32, f2u(23.04), s22, i32, f2u(-45.5687)); TESTINSN_bin_f32("vmul.f32 s23, s24, s25", s23, s24, i32, f2u(-347856.475), s25, i32, f2u(1346)); TESTINSN_bin_f32("vmul.f32 s20, s31, s12", s20, s31, i32, f2u(48755), s12, i32, f2u(-45786.476)); TESTINSN_bin_f32("vmul.f32 s19, s25, s27", s19, s25, i32, f2u(95867.76), s27, i32, f2u(17065)); TESTINSN_bin_f32("vmul.f32 s30, s15, s2", s30, s15, i32, f2u(-45667.24), s2, i32, f2u(-248562.76)); TESTINSN_bin_f32("vmul.f32 s23, s24, s5", s23, s24, i32, f2u(24), s5, i32, f2u(1346)); TESTINSN_bin_f32("vmul.f32 s10, s11, s2", s10, s11, i32, f2u(48755), s2, i32, f2u(1089)); TESTINSN_bin_f32("vmul.f32 s29, s15, s7", s29, s15, i32, f2u(214), s7, i32, f2u(1752065)); TESTINSN_bin_f32("vmul.f32 s30, s11, s12", s30, s11, i32, f2u(356047.56), s12, i32, f2u(5867.009)); TESTINSN_bin_f32("vmul.f32 s27, s21, s6", s27, s21, i32, f2u(34.00046), s6, i32, f2u(0.0024575)); TESTINSN_bin_f32("vmul.f32 s30, s31, s2", s30, s31, i32, f2u(2754), s2, i32, f2u(107)); TESTINSN_bin_f32("vmul.f32 s13, s24, s5", s13, s24, i32, f2u(874), s5, i32, f2u(1384.6)); TESTINSN_bin_f32("vmul.f32 s10, s11, s2", s10, s11, i32, f2u(487.587), s2, i32, f2u(109)); TESTINSN_bin_f32("vmul.f32 s29, s25, s7", s29, s25, i32, f2u(-INFINITY), s7, i32, f2u(1752)); TESTINSN_bin_f32("vmul.f32 s0, s11, s12", s0, s11, i32, f2u(INFINITY), s12, i32, f2u(-5786.47)); TESTINSN_bin_f32("vmul.f32 s27, s21, s16", s27, s21, i32, f2u(456.2489562), s16, i32, f2u(-7.2945676)); TESTINSN_bin_f32("vmul.f32 s0, s5, s2", s0, s5, i32, f2u(INFINITY), s2, i32, f2u(-INFINITY)); TESTINSN_bin_f32("vmul.f32 s20, s13, s15", s20, s13, i32, f2u(-INFINITY), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vmul.f32 s10, s23, s15", s10, s23, i32, f2u(INFINITY), s15, i32, f2u(0.0)); printf("---- VNMUL (fp) ----\n"); TESTINSN_bin_f64("vnmul.f64 d0, d11, d12", d0, d11, i32, f2u0(-INFINITY), f2u1(-INFINITY), d12, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vnmul.f64 d7, d1, d6", d7, d1, i32, f2u0(INFINITY), f2u1(INFINITY), d6, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vnmul.f64 d0, d5, d2", d0, d5, i32, f2u0(NAN), f2u1(NAN), d2, i32, f2u0(-1.0), f2u1(-1.0)); TESTINSN_bin_f64("vnmul.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vnmul.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vnmul.f64 d20, d25, d22", d20, d25, i32, f2u0(23.04), f2u1(23.04), d22, i32, f2u0(-45.5687), f2u1(-45.5687)); TESTINSN_bin_f64("vnmul.f64 d23, d24, d25", d23, d24, i32, f2u0(-347856.475), f2u1(-347856.475), d25, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vnmul.f64 d20, d31, d12", d20, d31, i32, f2u0(48755), f2u1(48755), d12, i32, f2u0(-45786.476), f2u1(-45786.476)); TESTINSN_bin_f64("vnmul.f64 d19, d25, d27", d19, d25, i32, f2u0(95867.76), f2u1(95867.76), d27, i32, f2u0(17065), f2u1(17065)); TESTINSN_bin_f64("vnmul.f64 d30, d15, d2", d30, d15, i32, f2u0(-45667.24), f2u1(-45667.24), d2, i32, f2u0(-248562.76), f2u1(-248562.76)); TESTINSN_bin_f64("vnmul.f64 d23, d24, d5", d23, d24, i32, f2u0(24), f2u1(24), d5, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vnmul.f64 d10, d11, d2", d10, d11, i32, f2u0(48755), f2u1(48755), d2, i32, f2u0(1089), f2u1(1089)); TESTINSN_bin_f64("vnmul.f64 d29, d15, d7", d29, d15, i32, f2u0(214), f2u1(214), d7, i32, f2u0(1752065), f2u1(1752065)); TESTINSN_bin_f64("vnmul.f64 d30, d11, d12", d30, d11, i32, f2u0(356047.56), f2u1(356047.56), d12, i32, f2u0(5867.009), f2u1(5867.009)); TESTINSN_bin_f64("vnmul.f64 d27, d21, d6", d27, d21, i32, f2u0(34.00046), f2u1(34.00046), d6, i32, f2u0(0.0024575), f2u1(0.0024575)); TESTINSN_bin_f64("vnmul.f64 d30, d31, d2", d30, d31, i32, f2u0(2754), f2u1(2754), d2, i32, f2u0(107), f2u1(107)); TESTINSN_bin_f64("vnmul.f64 d13, d24, d5", d13, d24, i32, f2u0(874), f2u1(874), d5, i32, f2u0(1384.6), f2u1(1384.6)); TESTINSN_bin_f64("vnmul.f64 d10, d11, d2", d10, d11, i32, f2u0(487.587), f2u1(487.587), d2, i32, f2u0(109), f2u1(109)); TESTINSN_bin_f64("vnmul.f64 d29, d25, d7", d29, d25, i32, f2u0(-INFINITY), f2u1(-INFINITY), d7, i32, f2u0(1752), f2u1(1752)); TESTINSN_bin_f64("vnmul.f64 d0, d11, d12", d0, d11, i32, f2u0(INFINITY), f2u1(INFINITY), d12, i32, f2u0(-5786.47), f2u1(-5786.47)); TESTINSN_bin_f64("vnmul.f64 d27, d21, d16", d27, d21, i32, f2u0(456.2489562), f2u1(456.2489562), d16, i32, f2u0(-7.2945676), f2u1(-7.2945676)); TESTINSN_bin_f64("vnmul.f64 d0, d5, d2", d0, d5, i32, f2u0(INFINITY), f2u1(INFINITY), d2, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_bin_f64("vnmul.f64 d20, d13, d15", d20, d13, i32, f2u0(-INFINITY), f2u1(-INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vnmul.f64 d10, d23, d15", d10, d23, i32, f2u0(INFINITY), f2u1(INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f32("vnmul.f32 s0, s11, s12", s0, s11, i32, f2u(-INFINITY), s12, i32, f2u(NAN)); TESTINSN_bin_f32("vnmul.f32 s7, s1, s6", s7, s1, i32, f2u(INFINITY), s6, i32, f2u(NAN)); TESTINSN_bin_f32("vnmul.f32 s0, s5, s2", s0, s5, i32, f2u(NAN), s2, i32, f2u(-1.0)); TESTINSN_bin_f32("vnmul.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vnmul.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(NAN)); TESTINSN_bin_f32("vnmul.f32 s20, s25, s22", s20, s25, i32, f2u(23.04), s22, i32, f2u(-45.5687)); TESTINSN_bin_f32("vnmul.f32 s23, s24, s25", s23, s24, i32, f2u(-347856.475), s25, i32, f2u(1346)); TESTINSN_bin_f32("vnmul.f32 s20, s31, s12", s20, s31, i32, f2u(48755), s12, i32, f2u(-45786.476)); TESTINSN_bin_f32("vnmul.f32 s19, s25, s27", s19, s25, i32, f2u(95867.76), s27, i32, f2u(17065)); TESTINSN_bin_f32("vnmul.f32 s30, s15, s2", s30, s15, i32, f2u(-45667.24), s2, i32, f2u(-248562.76)); TESTINSN_bin_f32("vnmul.f32 s23, s24, s5", s23, s24, i32, f2u(24), s5, i32, f2u(1346)); TESTINSN_bin_f32("vnmul.f32 s10, s11, s2", s10, s11, i32, f2u(48755), s2, i32, f2u(1089)); TESTINSN_bin_f32("vnmul.f32 s29, s15, s7", s29, s15, i32, f2u(214), s7, i32, f2u(1752065)); TESTINSN_bin_f32("vnmul.f32 s30, s11, s12", s30, s11, i32, f2u(356047.56), s12, i32, f2u(5867.009)); TESTINSN_bin_f32("vnmul.f32 s27, s21, s6", s27, s21, i32, f2u(34.00046), s6, i32, f2u(0.0024575)); TESTINSN_bin_f32("vnmul.f32 s30, s31, s2", s30, s31, i32, f2u(2754), s2, i32, f2u(107)); TESTINSN_bin_f32("vnmul.f32 s13, s24, s5", s13, s24, i32, f2u(874), s5, i32, f2u(1384.6)); TESTINSN_bin_f32("vnmul.f32 s10, s11, s2", s10, s11, i32, f2u(487.587), s2, i32, f2u(109)); TESTINSN_bin_f32("vnmul.f32 s29, s25, s7", s29, s25, i32, f2u(-INFINITY), s7, i32, f2u(1752)); TESTINSN_bin_f32("vnmul.f32 s0, s11, s12", s0, s11, i32, f2u(INFINITY), s12, i32, f2u(-5786.47)); TESTINSN_bin_f32("vnmul.f32 s27, s21, s16", s27, s21, i32, f2u(456.2489562), s16, i32, f2u(-7.2945676)); TESTINSN_bin_f32("vnmul.f32 s0, s5, s2", s0, s5, i32, f2u(INFINITY), s2, i32, f2u(-INFINITY)); TESTINSN_bin_f32("vnmul.f32 s20, s13, s15", s20, s13, i32, f2u(-INFINITY), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vnmul.f32 s10, s23, s15", s10, s23, i32, f2u(INFINITY), s15, i32, f2u(0.0)); printf("---- VADD (fp) ----\n"); TESTINSN_bin_f64("vadd.f64 d0, d11, d12", d0, d11, i32, f2u0(-INFINITY), f2u1(-INFINITY), d12, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vadd.f64 d7, d1, d6", d7, d1, i32, f2u0(INFINITY), f2u1(INFINITY), d6, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vadd.f64 d0, d5, d2", d0, d5, i32, f2u0(NAN), f2u1(NAN), d2, i32, f2u0(-1.0), f2u1(-1.0)); TESTINSN_bin_f64("vadd.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vadd.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vadd.f64 d20, d25, d22", d20, d25, i32, f2u0(23.04), f2u1(23.04), d22, i32, f2u0(-45.5687), f2u1(-45.5687)); TESTINSN_bin_f64("vadd.f64 d23, d24, d25", d23, d24, i32, f2u0(-347856.475), f2u1(-347856.475), d25, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vadd.f64 d20, d31, d12", d20, d31, i32, f2u0(48755), f2u1(48755), d12, i32, f2u0(-45786.476), f2u1(-45786.476)); TESTINSN_bin_f64("vadd.f64 d19, d25, d27", d19, d25, i32, f2u0(95867.76), f2u1(95867.76), d27, i32, f2u0(17065), f2u1(17065)); TESTINSN_bin_f64("vadd.f64 d30, d15, d2", d30, d15, i32, f2u0(-45667.24), f2u1(-45667.24), d2, i32, f2u0(-248562.76), f2u1(-248562.76)); TESTINSN_bin_f64("vadd.f64 d23, d24, d5", d23, d24, i32, f2u0(24), f2u1(24), d5, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vadd.f64 d10, d11, d2", d10, d11, i32, f2u0(48755), f2u1(48755), d2, i32, f2u0(1089), f2u1(1089)); TESTINSN_bin_f64("vadd.f64 d29, d15, d7", d29, d15, i32, f2u0(214), f2u1(214), d7, i32, f2u0(1752065), f2u1(1752065)); TESTINSN_bin_f64("vadd.f64 d30, d11, d12", d30, d11, i32, f2u0(356047.56), f2u1(356047.56), d12, i32, f2u0(5867.009), f2u1(5867.009)); TESTINSN_bin_f64("vadd.f64 d27, d21, d6", d27, d21, i32, f2u0(34.00046), f2u1(34.00046), d6, i32, f2u0(0.0024575), f2u1(0.0024575)); TESTINSN_bin_f64("vadd.f64 d30, d31, d2", d30, d31, i32, f2u0(2754), f2u1(2754), d2, i32, f2u0(107), f2u1(107)); TESTINSN_bin_f64("vadd.f64 d13, d24, d5", d13, d24, i32, f2u0(874), f2u1(874), d5, i32, f2u0(1384.6), f2u1(1384.6)); TESTINSN_bin_f64("vadd.f64 d10, d11, d2", d10, d11, i32, f2u0(487.587), f2u1(487.587), d2, i32, f2u0(109), f2u1(109)); TESTINSN_bin_f64("vadd.f64 d29, d25, d7", d29, d25, i32, f2u0(-INFINITY), f2u1(-INFINITY), d7, i32, f2u0(1752), f2u1(1752)); TESTINSN_bin_f64("vadd.f64 d0, d11, d12", d0, d11, i32, f2u0(INFINITY), f2u1(INFINITY), d12, i32, f2u0(-5786.47), f2u1(-5786.47)); TESTINSN_bin_f64("vadd.f64 d27, d21, d16", d27, d21, i32, f2u0(456.2489562), f2u1(456.2489562), d16, i32, f2u0(-7.2945676), f2u1(-7.2945676)); TESTINSN_bin_f64("vadd.f64 d0, d5, d2", d0, d5, i32, f2u0(INFINITY), f2u1(INFINITY), d2, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_bin_f64("vadd.f64 d20, d13, d15", d20, d13, i32, f2u0(-INFINITY), f2u1(-INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vadd.f64 d10, d23, d15", d10, d23, i32, f2u0(INFINITY), f2u1(INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f32("vadd.f32 s0, s11, s12", s0, s11, i32, f2u(-INFINITY), s12, i32, f2u(NAN)); TESTINSN_bin_f32("vadd.f32 s7, s1, s6", s7, s1, i32, f2u(INFINITY), s6, i32, f2u(NAN)); TESTINSN_bin_f32("vadd.f32 s0, s5, s2", s0, s5, i32, f2u(NAN), s2, i32, f2u(-1.0)); TESTINSN_bin_f32("vadd.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vadd.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(NAN)); TESTINSN_bin_f32("vadd.f32 s20, s25, s22", s20, s25, i32, f2u(23.04), s22, i32, f2u(-45.5687)); TESTINSN_bin_f32("vadd.f32 s23, s24, s25", s23, s24, i32, f2u(-347856.475), s25, i32, f2u(1346)); TESTINSN_bin_f32("vadd.f32 s20, s31, s12", s20, s31, i32, f2u(48755), s12, i32, f2u(-45786.476)); TESTINSN_bin_f32("vadd.f32 s19, s25, s27", s19, s25, i32, f2u(95867.76), s27, i32, f2u(17065)); TESTINSN_bin_f32("vadd.f32 s30, s15, s2", s30, s15, i32, f2u(-45667.24), s2, i32, f2u(-248562.76)); TESTINSN_bin_f32("vadd.f32 s23, s24, s5", s23, s24, i32, f2u(24), s5, i32, f2u(1346)); TESTINSN_bin_f32("vadd.f32 s10, s11, s2", s10, s11, i32, f2u(48755), s2, i32, f2u(1089)); TESTINSN_bin_f32("vadd.f32 s29, s15, s7", s29, s15, i32, f2u(214), s7, i32, f2u(1752065)); TESTINSN_bin_f32("vadd.f32 s30, s11, s12", s30, s11, i32, f2u(356047.56), s12, i32, f2u(5867.009)); TESTINSN_bin_f32("vadd.f32 s27, s21, s6", s27, s21, i32, f2u(34.00046), s6, i32, f2u(0.0024575)); TESTINSN_bin_f32("vadd.f32 s30, s31, s2", s30, s31, i32, f2u(2754), s2, i32, f2u(107)); TESTINSN_bin_f32("vadd.f32 s13, s24, s5", s13, s24, i32, f2u(874), s5, i32, f2u(1384.6)); TESTINSN_bin_f32("vadd.f32 s10, s11, s2", s10, s11, i32, f2u(487.587), s2, i32, f2u(109)); TESTINSN_bin_f32("vadd.f32 s29, s25, s7", s29, s25, i32, f2u(-INFINITY), s7, i32, f2u(1752)); TESTINSN_bin_f32("vadd.f32 s0, s11, s12", s0, s11, i32, f2u(INFINITY), s12, i32, f2u(-5786.47)); TESTINSN_bin_f32("vadd.f32 s27, s21, s16", s27, s21, i32, f2u(456.2489562), s16, i32, f2u(-7.2945676)); TESTINSN_bin_f32("vadd.f32 s0, s5, s2", s0, s5, i32, f2u(INFINITY), s2, i32, f2u(-INFINITY)); TESTINSN_bin_f32("vadd.f32 s20, s13, s15", s20, s13, i32, f2u(-INFINITY), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vadd.f32 s10, s23, s15", s10, s23, i32, f2u(INFINITY), s15, i32, f2u(0.0)); printf("---- VSUB (fp) ----\n"); TESTINSN_bin_f64("vsub.f64 d0, d11, d12", d0, d11, i32, f2u0(-INFINITY), f2u1(-INFINITY), d12, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vsub.f64 d7, d1, d6", d7, d1, i32, f2u0(INFINITY), f2u1(INFINITY), d6, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vsub.f64 d0, d5, d2", d0, d5, i32, f2u0(NAN), f2u1(NAN), d2, i32, f2u0(-1.0), f2u1(-1.0)); TESTINSN_bin_f64("vsub.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vsub.f64 d10, d13, d15", d10, d13, i32, f2u0(NAN), f2u1(NAN), d15, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_bin_f64("vsub.f64 d20, d25, d22", d20, d25, i32, f2u0(23.04), f2u1(23.04), d22, i32, f2u0(-45.5687), f2u1(-45.5687)); TESTINSN_bin_f64("vsub.f64 d23, d24, d25", d23, d24, i32, f2u0(-347856.475), f2u1(-347856.475), d25, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vsub.f64 d20, d31, d12", d20, d31, i32, f2u0(48755), f2u1(48755), d12, i32, f2u0(-45786.476), f2u1(-45786.476)); TESTINSN_bin_f64("vsub.f64 d19, d25, d27", d19, d25, i32, f2u0(95867.76), f2u1(95867.76), d27, i32, f2u0(17065), f2u1(17065)); TESTINSN_bin_f64("vsub.f64 d30, d15, d2", d30, d15, i32, f2u0(-45667.24), f2u1(-45667.24), d2, i32, f2u0(-248562.76), f2u1(-248562.76)); TESTINSN_bin_f64("vsub.f64 d23, d24, d5", d23, d24, i32, f2u0(24), f2u1(24), d5, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vsub.f64 d10, d11, d2", d10, d11, i32, f2u0(48755), f2u1(48755), d2, i32, f2u0(1089), f2u1(1089)); TESTINSN_bin_f64("vsub.f64 d29, d15, d7", d29, d15, i32, f2u0(214), f2u1(214), d7, i32, f2u0(1752065), f2u1(1752065)); TESTINSN_bin_f64("vsub.f64 d30, d11, d12", d30, d11, i32, f2u0(356047.56), f2u1(356047.56), d12, i32, f2u0(5867.009), f2u1(5867.009)); TESTINSN_bin_f64("vsub.f64 d27, d21, d6", d27, d21, i32, f2u0(34.00046), f2u1(34.00046), d6, i32, f2u0(0.0024575), f2u1(0.0024575)); TESTINSN_bin_f64("vsub.f64 d30, d31, d2", d30, d31, i32, f2u0(2754), f2u1(2754), d2, i32, f2u0(107), f2u1(107)); TESTINSN_bin_f64("vsub.f64 d13, d24, d5", d13, d24, i32, f2u0(874), f2u1(874), d5, i32, f2u0(1384.6), f2u1(1384.6)); TESTINSN_bin_f64("vsub.f64 d10, d11, d2", d10, d11, i32, f2u0(487.587), f2u1(487.587), d2, i32, f2u0(109), f2u1(109)); TESTINSN_bin_f64("vsub.f64 d29, d25, d7", d29, d25, i32, f2u0(-INFINITY), f2u1(-INFINITY), d7, i32, f2u0(1752), f2u1(1752)); TESTINSN_bin_f64("vsub.f64 d0, d11, d12", d0, d11, i32, f2u0(INFINITY), f2u1(INFINITY), d12, i32, f2u0(-5786.47), f2u1(-5786.47)); TESTINSN_bin_f64("vsub.f64 d27, d21, d16", d27, d21, i32, f2u0(456.2489562), f2u1(456.2489562), d16, i32, f2u0(-7.2945676), f2u1(-7.2945676)); TESTINSN_bin_f64("vsub.f64 d0, d5, d2", d0, d5, i32, f2u0(INFINITY), f2u1(INFINITY), d2, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_bin_f64("vsub.f64 d20, d13, d15", d20, d13, i32, f2u0(-INFINITY), f2u1(-INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vsub.f64 d10, d23, d15", d10, d23, i32, f2u0(INFINITY), f2u1(INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f32("vsub.f32 s0, s11, s12", s0, s11, i32, f2u(-INFINITY), s12, i32, f2u(NAN)); TESTINSN_bin_f32("vsub.f32 s7, s1, s6", s7, s1, i32, f2u(INFINITY), s6, i32, f2u(NAN)); TESTINSN_bin_f32("vsub.f32 s0, s5, s2", s0, s5, i32, f2u(NAN), s2, i32, f2u(-1.0)); TESTINSN_bin_f32("vsub.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vsub.f32 s10, s13, s15", s10, s13, i32, f2u(NAN), s15, i32, f2u(NAN)); TESTINSN_bin_f32("vsub.f32 s20, s25, s22", s20, s25, i32, f2u(23.04), s22, i32, f2u(-45.5687)); TESTINSN_bin_f32("vsub.f32 s23, s24, s25", s23, s24, i32, f2u(-347856.475), s25, i32, f2u(1346)); TESTINSN_bin_f32("vsub.f32 s20, s31, s12", s20, s31, i32, f2u(48755), s12, i32, f2u(-45786.476)); TESTINSN_bin_f32("vsub.f32 s19, s25, s27", s19, s25, i32, f2u(95867.76), s27, i32, f2u(17065)); TESTINSN_bin_f32("vsub.f32 s30, s15, s2", s30, s15, i32, f2u(-45667.24), s2, i32, f2u(-248562.76)); TESTINSN_bin_f32("vsub.f32 s23, s24, s5", s23, s24, i32, f2u(24), s5, i32, f2u(1346)); TESTINSN_bin_f32("vsub.f32 s10, s11, s2", s10, s11, i32, f2u(48755), s2, i32, f2u(1089)); TESTINSN_bin_f32("vsub.f32 s29, s15, s7", s29, s15, i32, f2u(214), s7, i32, f2u(1752065)); TESTINSN_bin_f32("vsub.f32 s30, s11, s12", s30, s11, i32, f2u(356047.56), s12, i32, f2u(5867.009)); TESTINSN_bin_f32("vsub.f32 s27, s21, s6", s27, s21, i32, f2u(34.00046), s6, i32, f2u(0.0024575)); TESTINSN_bin_f32("vsub.f32 s30, s31, s2", s30, s31, i32, f2u(2754), s2, i32, f2u(107)); TESTINSN_bin_f32("vsub.f32 s13, s24, s5", s13, s24, i32, f2u(874), s5, i32, f2u(1384.6)); TESTINSN_bin_f32("vsub.f32 s10, s11, s2", s10, s11, i32, f2u(487.587), s2, i32, f2u(109)); TESTINSN_bin_f32("vsub.f32 s29, s25, s7", s29, s25, i32, f2u(-INFINITY), s7, i32, f2u(1752)); TESTINSN_bin_f32("vsub.f32 s0, s11, s12", s0, s11, i32, f2u(INFINITY), s12, i32, f2u(-5786.47)); TESTINSN_bin_f32("vsub.f32 s27, s21, s16", s27, s21, i32, f2u(456.2489562), s16, i32, f2u(-7.2945676)); TESTINSN_bin_f32("vsub.f32 s0, s5, s2", s0, s5, i32, f2u(INFINITY), s2, i32, f2u(-INFINITY)); TESTINSN_bin_f32("vsub.f32 s20, s13, s15", s20, s13, i32, f2u(-INFINITY), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vsub.f32 s10, s23, s15", s10, s23, i32, f2u(INFINITY), s15, i32, f2u(0.0)); printf("---- VDIV (fp) ----\n"); TESTINSN_bin_f64("vdiv.f64 d20, d25, d22", d20, d25, i32, f2u0(23.04), f2u1(23.04), d22, i32, f2u0(-45.5687), f2u1(-45.5687)); TESTINSN_bin_f64("vdiv.f64 d23, d24, d25", d23, d24, i32, f2u0(-347856.475), f2u1(-347856.475), d25, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vdiv.f64 d20, d31, d12", d20, d31, i32, f2u0(48755), f2u1(48755), d12, i32, f2u0(-45786.476), f2u1(-45786.476)); TESTINSN_bin_f64("vdiv.f64 d19, d25, d27", d19, d25, i32, f2u0(95867.76), f2u1(95867.76), d27, i32, f2u0(17065), f2u1(17065)); TESTINSN_bin_f64("vdiv.f64 d30, d15, d2", d30, d15, i32, f2u0(-45667.24), f2u1(-45667.24), d2, i32, f2u0(-248562.76), f2u1(-248562.76)); TESTINSN_bin_f64("vdiv.f64 d23, d24, d5", d23, d24, i32, f2u0(24), f2u1(24), d5, i32, f2u0(1346), f2u1(1346)); TESTINSN_bin_f64("vdiv.f64 d10, d11, d2", d10, d11, i32, f2u0(48755), f2u1(48755), d2, i32, f2u0(1089), f2u1(1089)); TESTINSN_bin_f64("vdiv.f64 d29, d15, d7", d29, d15, i32, f2u0(214), f2u1(214), d7, i32, f2u0(1752065), f2u1(1752065)); TESTINSN_bin_f64("vdiv.f64 d30, d11, d12", d30, d11, i32, f2u0(356047.56), f2u1(356047.56), d12, i32, f2u0(5867.009), f2u1(5867.009)); TESTINSN_bin_f64("vdiv.f64 d27, d21, d6", d27, d21, i32, f2u0(34.00046), f2u1(34.00046), d6, i32, f2u0(0.0024575), f2u1(0.0024575)); TESTINSN_bin_f64("vdiv.f64 d30, d31, d2", d30, d31, i32, f2u0(2754), f2u1(2754), d2, i32, f2u0(107), f2u1(107)); TESTINSN_bin_f64("vdiv.f64 d13, d24, d5", d13, d24, i32, f2u0(874), f2u1(874), d5, i32, f2u0(1384.6), f2u1(1384.6)); TESTINSN_bin_f64("vdiv.f64 d10, d11, d2", d10, d11, i32, f2u0(487.587), f2u1(487.587), d2, i32, f2u0(109), f2u1(109)); TESTINSN_bin_f64("vdiv.f64 d29, d25, d7", d29, d25, i32, f2u0(-INFINITY), f2u1(-INFINITY), d7, i32, f2u0(1752), f2u1(1752)); TESTINSN_bin_f64("vdiv.f64 d0, d11, d12", d0, d11, i32, f2u0(INFINITY), f2u1(INFINITY), d12, i32, f2u0(-5786.47), f2u1(-5786.47)); TESTINSN_bin_f64("vdiv.f64 d27, d21, d16", d27, d21, i32, f2u0(456.2489562), f2u1(456.2489562), d16, i32, f2u0(-7.2945676), f2u1(-7.2945676)); TESTINSN_bin_f64("vdiv.f64 d0, d5, d2", d0, d5, i32, f2u0(INFINITY), f2u1(INFINITY), d2, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_bin_f64("vdiv.f64 d20, d13, d15", d20, d13, i32, f2u0(-INFINITY), f2u1(-INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f64("vdiv.f64 d10, d23, d15", d10, d23, i32, f2u0(INFINITY), f2u1(INFINITY), d15, i32, f2u0(0.0), f2u1(0.0)); TESTINSN_bin_f32("vdiv.f32 s20, s25, s22", s20, s25, i32, f2u(23.04), s22, i32, f2u(-45.5687)); TESTINSN_bin_f32("vdiv.f32 s23, s24, s25", s23, s24, i32, f2u(-347856.475), s25, i32, f2u(1346)); TESTINSN_bin_f32("vdiv.f32 s20, s31, s12", s20, s31, i32, f2u(48755), s12, i32, f2u(-45786.476)); TESTINSN_bin_f32("vdiv.f32 s19, s25, s27", s19, s25, i32, f2u(95867.76), s27, i32, f2u(17065)); TESTINSN_bin_f32("vdiv.f32 s30, s15, s2", s30, s15, i32, f2u(-45667.24), s2, i32, f2u(-248562.76)); TESTINSN_bin_f32("vdiv.f32 s23, s24, s5", s23, s24, i32, f2u(24), s5, i32, f2u(1346)); TESTINSN_bin_f32("vdiv.f32 s10, s11, s2", s10, s11, i32, f2u(48755), s2, i32, f2u(1089)); TESTINSN_bin_f32("vdiv.f32 s29, s15, s7", s29, s15, i32, f2u(214), s7, i32, f2u(1752065)); TESTINSN_bin_f32("vdiv.f32 s30, s11, s12", s30, s11, i32, f2u(356047.56), s12, i32, f2u(5867.009)); TESTINSN_bin_f32("vdiv.f32 s27, s21, s6", s27, s21, i32, f2u(34.00046), s6, i32, f2u(0.0024575)); TESTINSN_bin_f32("vdiv.f32 s30, s31, s2", s30, s31, i32, f2u(2754), s2, i32, f2u(107)); TESTINSN_bin_f32("vdiv.f32 s13, s24, s5", s13, s24, i32, f2u(874), s5, i32, f2u(1384.6)); TESTINSN_bin_f32("vdiv.f32 s10, s11, s2", s10, s11, i32, f2u(487.587), s2, i32, f2u(109)); TESTINSN_bin_f32("vdiv.f32 s29, s25, s7", s29, s25, i32, f2u(-INFINITY), s7, i32, f2u(1752)); TESTINSN_bin_f32("vdiv.f32 s0, s11, s12", s0, s11, i32, f2u(INFINITY), s12, i32, f2u(-5786.47)); TESTINSN_bin_f32("vdiv.f32 s27, s21, s16", s27, s21, i32, f2u(456.2489562), s16, i32, f2u(-7.2945676)); TESTINSN_bin_f32("vdiv.f32 s0, s5, s2", s0, s5, i32, f2u(INFINITY), s2, i32, f2u(-INFINITY)); TESTINSN_bin_f32("vdiv.f32 s20, s13, s15", s20, s13, i32, f2u(-INFINITY), s15, i32, f2u(0.0)); TESTINSN_bin_f32("vdiv.f32 s10, s23, s15", s10, s23, i32, f2u(INFINITY), s15, i32, f2u(0.0)); printf("---- VABS ----\n"); TESTINSN_un_f64("vabs.f64 d15, d4", d15, d4, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_un_f64("vabs.f64 d31, d4", d31, d4, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_un_f64("vabs.f64 d25, d25", d25, d24, i32, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_un_f64("vabs.f64 d18, d17", d18, d17, i32, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_un_f64("vabs.f64 d30, d1", d30, d1, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_un_f64("vabs.f64 d8, d27", d8, d27, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_un_f64("vabs.f64 d20, d1", d20, d1, i32, f2u0(76543.001002), f2u1(76543.001002)); TESTINSN_un_f64("vabs.f64 d28, d7", d28, d7, i32, f2u0(-4856.234), f2u1(-4856.234)); TESTINSN_un_f64("vabs.f64 d2, d19", d2, d19, i32,f2u0(87.098217), f2u1(87.098217)); TESTINSN_un_f64("vabs.f64 d8, d7", d8, d7, i32, f2u0(-122156.2), f2u1(-122156.2)); TESTINSN_un_f32("vabs.f32 s15, s4", s15, s4, i32, f2u(NAN)); TESTINSN_un_f32("vabs.f32 s31, s4", s31, s4, i32, f2u(NAN)); TESTINSN_un_f32("vabs.f32 s25, s25", s25, s24, i32, f2u(INFINITY)); TESTINSN_un_f32("vabs.f32 s18, s17", s18, s17, i32, f2u(INFINITY)); TESTINSN_un_f32("vabs.f32 s30, s1", s30, s1, i32, f2u(-INFINITY)); TESTINSN_un_f32("vabs.f32 s8, s27", s8, s27, i32, f2u(-INFINITY)); TESTINSN_un_f32("vabs.f32 s20, s1", s20, s1, i32, f2u(76543.001002)); TESTINSN_un_f32("vabs.f32 s28, s7", s28, s7, i32, f2u(-4856.234)); TESTINSN_un_f32("vabs.f32 s2, s19", s2, s19, i32,f2u(87.098217)); TESTINSN_un_f32("vabs.f32 s8, s7", s8, s7, i32, f2u(-122156.2)); printf("---- VNEG ----\n"); TESTINSN_un_f64("vneg.f64 d15, d4", d15, d4, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_un_f64("vneg.f64 d31, d4", d31, d4, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_un_f64("vneg.f64 d25, d25", d25, d24, i32, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_un_f64("vneg.f64 d18, d17", d18, d17, i32, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_un_f64("vneg.f64 d30, d1", d30, d1, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_un_f64("vneg.f64 d8, d27", d8, d27, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_un_f64("vneg.f64 d20, d1", d20, d1, i32, f2u0(76543.001002), f2u1(76543.001002)); TESTINSN_un_f64("vneg.f64 d28, d7", d28, d7, i32, f2u0(-4856.234), f2u1(-4856.234)); TESTINSN_un_f64("vneg.f64 d2, d19", d2, d19, i32,f2u0(87.098217), f2u1(87.098217)); TESTINSN_un_f64("vneg.f64 d8, d7", d8, d7, i32, f2u0(-122156.2), f2u1(-122156.2)); TESTINSN_un_f32("vneg.f32 s15, s4", s15, s4, i32, f2u(NAN)); TESTINSN_un_f32("vneg.f32 s31, s4", s31, s4, i32, f2u(NAN)); TESTINSN_un_f32("vneg.f32 s25, s25", s25, s24, i32, f2u(INFINITY)); TESTINSN_un_f32("vneg.f32 s18, s17", s18, s17, i32, f2u(INFINITY)); TESTINSN_un_f32("vneg.f32 s30, s1", s30, s1, i32, f2u(-INFINITY)); TESTINSN_un_f32("vneg.f32 s8, s27", s8, s27, i32, f2u(-INFINITY)); TESTINSN_un_f32("vneg.f32 s20, s1", s20, s1, i32, f2u(76543.001002)); TESTINSN_un_f32("vneg.f32 s28, s7", s28, s7, i32, f2u(-4856.234)); TESTINSN_un_f32("vneg.f32 s2, s19", s2, s19, i32,f2u(87.098217)); TESTINSN_un_f32("vneg.f32 s8, s7", s8, s7, i32, f2u(-122156.2)); printf("---- VMOV (register) ----\n"); TESTINSN_un_f64("vmov.f64 d15, d4", d15, d4, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_un_f64("vmov.f64 d31, d4", d31, d4, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_un_f64("vmov.f64 d25, d25", d25, d24, i32, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_un_f64("vmov.f64 d18, d17", d18, d17, i32, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_un_f64("vmov.f64 d30, d1", d30, d1, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_un_f64("vmov.f64 d8, d27", d8, d27, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_un_f64("vmov.f64 d20, d1", d20, d1, i32, f2u0(76543.001002), f2u1(76543.001002)); TESTINSN_un_f64("vmov.f64 d28, d7", d28, d7, i32, f2u0(-4856.234), f2u1(-4856.234)); TESTINSN_un_f64("vmov.f64 d2, d19", d2, d19, i32,f2u0(87.098217), f2u1(87.098217)); TESTINSN_un_f64("vmov.f64 d8, d7", d8, d7, i32, f2u0(-122156.2), f2u1(-122156.2)); TESTINSN_un_f32("vmov.f32 s15, s4", s15, s4, i32, f2u(NAN)); TESTINSN_un_f32("vmov.f32 s31, s4", s31, s4, i32, f2u(NAN)); TESTINSN_un_f32("vmov.f32 s25, s25", s25, s24, i32, f2u(INFINITY)); TESTINSN_un_f32("vmov.f32 s18, s17", s18, s17, i32, f2u(INFINITY)); TESTINSN_un_f32("vmov.f32 s30, s1", s30, s1, i32, f2u(-INFINITY)); TESTINSN_un_f32("vmov.f32 s8, s27", s8, s27, i32, f2u(-INFINITY)); TESTINSN_un_f32("vmov.f32 s20, s1", s20, s1, i32, f2u(76543.001002)); TESTINSN_un_f32("vmov.f32 s28, s7", s28, s7, i32, f2u(-4856.234)); TESTINSN_un_f32("vmov.f32 s2, s19", s2, s19, i32,f2u(87.098217)); TESTINSN_un_f32("vmov.f32 s8, s7", s8, s7, i32, f2u(-122156.2)); printf("---- VSQRT ----\n"); TESTINSN_un_f64("vsqrt.f64 d15, d4", d15, d4, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_un_f64("vsqrt.f64 d31, d4", d31, d4, i32, f2u0(NAN), f2u1(NAN)); TESTINSN_un_f64("vsqrt.f64 d25, d25", d25, d24, i32, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_un_f64("vsqrt.f64 d18, d17", d18, d17, i32, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_un_f64("vsqrt.f64 d30, d1", d30, d1, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_un_f64("vsqrt.f64 d8, d27", d8, d27, i32, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_un_f64("vsqrt.f64 d20, d1", d20, d1, i32, f2u0(76543.001002), f2u1(76543.001002)); TESTINSN_un_f64("vsqrt.f64 d28, d7", d28, d7, i32, f2u0(-4856.234), f2u1(-4856.234)); TESTINSN_un_f64("vsqrt.f64 d2, d19", d2, d19, i32,f2u0(87.098217), f2u1(87.098217)); TESTINSN_un_f64("vsqrt.f64 d8, d7", d8, d7, i32, f2u0(-122156.2), f2u1(-122156.2)); TESTINSN_un_f32("vsqrt.f32 s15, s4", s15, s4, i32, f2u(NAN)); TESTINSN_un_f32("vsqrt.f32 s31, s4", s31, s4, i32, f2u(NAN)); TESTINSN_un_f32("vsqrt.f32 s25, s25", s25, s24, i32, f2u(INFINITY)); TESTINSN_un_f32("vsqrt.f32 s18, s17", s18, s17, i32, f2u(INFINITY)); TESTINSN_un_f32("vsqrt.f32 s30, s1", s30, s1, i32, f2u(-INFINITY)); TESTINSN_un_f32("vsqrt.f32 s8, s27", s8, s27, i32, f2u(-INFINITY)); TESTINSN_un_f32("vsqrt.f32 s20, s1", s20, s1, i32, f2u(76543.001002)); TESTINSN_un_f32("vsqrt.f32 s28, s7", s28, s7, i32, f2u(-4856.234)); TESTINSN_un_f32("vsqrt.f32 s2, s19", s2, s19, i32,f2u(87.098217)); TESTINSN_un_f32("vsqrt.f32 s8, s7", s8, s7, i32, f2u(-122156.2)); printf("---- VCVT (integer <-> fp) ----\n"); TESTINSN_un_f32("vcvt.u32.f32 s0, s1", s0, s1, i32, f2u(3.2)); TESTINSN_un_f32("vcvt.u32.f32 s10, s11", s10, s11, i32, f2u(3e22)); TESTINSN_un_f32("vcvt.u32.f32 s15, s4", s15, s4, i32, f2u(3e9)); TESTINSN_un_f32("vcvt.u32.f32 s25, s24", s25, s24, i32, f2u(-0.5)); TESTINSN_un_f32("vcvt.u32.f32 s19, s21", s19, s21, i32, f2u(-7.1)); TESTINSN_un_f32("vcvt.u32.f32 s12, s8", s12, s8, i32, f2u(8.0 - 1.0/1024.0)); TESTINSN_un_f32("vcvt.u32.f32 s12, s18", s12, s18, i32, f2u(-8.0 + 1.0/1024.0)); TESTINSN_un_f32("vcvt.u32.f32 s30, s1", s30, s1, i32, f2u(0.0)); TESTINSN_un_f32("vcvt.u32.f32 s11, s1", s11, s1, i32, f2u(INFINITY)); TESTINSN_un_f32("vcvt.u32.f32 s21, s12", s21, s12, i32, f2u(-INFINITY)); TESTINSN_un_f32("vcvt.u32.f32 s20, s11", s20, s11, i32, f2u(NAN)); TESTINSN_un_f32("vcvt.s32.f32 s29, s13", s29, s13, i32, f2u(NAN)); TESTINSN_un_f32("vcvt.s32.f32 s9, s19", s9, s19, i32, f2u(0.0)); TESTINSN_un_f32("vcvt.s32.f32 s0, s17", s0, s17, i32, f2u(INFINITY)); TESTINSN_un_f32("vcvt.s32.f32 s0, s1", s0, s1, i32, f2u(-INFINITY)); TESTINSN_un_f32("vcvt.s32.f32 s30, s11", s30, s11, i32, f2u(3.2)); TESTINSN_un_f32("vcvt.s32.f32 s20, s21", s20, s21, i32, f2u(3e22)); TESTINSN_un_f32("vcvt.s32.f32 s15, s14", s15, s14, i32, f2u(3e9)); TESTINSN_un_f32("vcvt.s32.f32 s15, s24", s15, s24, i32, f2u(-0.5)); TESTINSN_un_f32("vcvt.s32.f32 s15, s29", s15, s29, i32, f2u(-7.1)); TESTINSN_un_f32("vcvt.s32.f32 s12, s31", s12, s31, i32, f2u(8.0 - 1.0/1024.0)); TESTINSN_un_f32("vcvt.s32.f32 s1, s8", s1, s8, i32, f2u(-8.0 + 1.0/1024.0)); TESTINSN_un_f32("vcvt.f32.u32 s30, s1", s30, s1, i32, f2u(7)); TESTINSN_un_f32("vcvt.f32.u32 s10, s17", s10, s17, i32, f2u(1 << 31)); TESTINSN_un_f32("vcvt.f32.u32 s20, s1", s20, s1, i32, f2u((1U << 31) + 1)); TESTINSN_un_f32("vcvt.f32.u32 s24, s26", s24, s26, i32, f2u((1U << 31) - 1)); TESTINSN_un_f32("vcvt.f32.u32 s0, s14", s0, s14, i32, f2u(0x30a0bcef)); TESTINSN_un_f32("vcvt.f32.u32 s11, s1", s11, s1, i32, f2u(INFINITY)); TESTINSN_un_f32("vcvt.f32.u32 s21, s12", s21, s12, i32, f2u(-INFINITY)); TESTINSN_un_f32("vcvt.f32.u32 s29, s13", s29, s13, i32, f2u(NAN)); TESTINSN_un_f32("vcvt.f32.s32 s0, s1", s0, s1, i32, f2u(7)); TESTINSN_un_f32("vcvt.f32.s32 s30, s31", s30, s31, i32, f2u(1 << 31)); TESTINSN_un_f32("vcvt.f32.s32 s0, s12", s0, s12, i32, f2u((1U << 31) + 1)); TESTINSN_un_f32("vcvt.f32.s32 s10, s16", s10, s16, i32, f2u((1U << 31) - 1)); TESTINSN_un_f32("vcvt.f32.s32 s1, s8", s1, s8, i32, f2u(-8.0 + 1.0/1024.0)); TESTINSN_un_f32("vcvt.f32.s32 s29, s13", s29, s13, i32, f2u(NAN)); TESTINSN_un_f32("vcvt.f32.s32 s9, s19", s9, s19, i32, f2u(0.0)); TESTINSN_un_f32("vcvt.f32.s32 s0, s17", s0, s17, i32, f2u(INFINITY)); TESTINSN_un_f32("vcvt.f32.s32 s0, s1", s0, s1, i32, f2u(-INFINITY)); TESTINSN_cvt_i32_f64("vcvt.u32.f64 s0, d1", s0, d1, f2u0(3.2), f2u1(3.2)); TESTINSN_cvt_i32_f64("vcvt.u32.f64 s13, d26", s13, d26, f2u0(234.54), f2u1(234.54)); TESTINSN_cvt_i32_f64("vcvt.u32.f64 s29, d30", s29, d30, f2u0(46245.345), f2u1(46245.345)); TESTINSN_cvt_i32_f64("vcvt.u32.f64 s30, d21", s30, d21, f2u0(-8.0 + 1.0/1024.0), f2u1(-8.0 + 1.0/1024.0)); TESTINSN_cvt_i32_f64("vcvt.u32.f64 s11, d8", s11, d8, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_cvt_i32_f64("vcvt.u32.f64 s8, d12", s8, d12, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_cvt_i32_f64("vcvt.u32.f64 s19, d7", s19, d7, f2u0(NAN), f2u1(NAN)); TESTINSN_cvt_i32_f64("vcvt.u32.f64 s16, d16", s16, d16, f2u0(76.67), f2u1(76.67)); TESTINSN_cvt_i32_f64("vcvt.s32.f64 s0, d1", s0, d1, f2u0(3.2), f2u1(3.2)); TESTINSN_cvt_i32_f64("vcvt.s32.f64 s13, d26", s13, d26, f2u0(234.54), f2u1(234.54)); TESTINSN_cvt_i32_f64("vcvt.s32.f64 s29, d30", s29, d30, f2u0(46245.345), f2u1(46245.345)); TESTINSN_cvt_i32_f64("vcvt.s32.f64 s30, d21", s30, d21, f2u0(-8.0 + 1.0/1024.0), f2u1(-8.0 + 1.0/1024.0)); TESTINSN_cvt_i32_f64("vcvt.s32.f64 s11, d8", s11, d8, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_cvt_i32_f64("vcvt.s32.f64 s8, d12", s8, d12, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_cvt_i32_f64("vcvt.s32.f64 s19, d7", s19, d7, f2u0(NAN), f2u1(NAN)); TESTINSN_cvt_i32_f64("vcvt.s32.f64 s16, d16", s16, d16, f2u0(76.67), f2u1(76.67)); TESTINSN_cvt_f64_i32("vcvt.f64.u32 d0, s1", d0, s1, f2u(3.2)); TESTINSN_cvt_f64_i32("vcvt.f64.u32 d30, s21", d30, s21, f2u(-656.42)); TESTINSN_cvt_f64_i32("vcvt.f64.u32 d16, s12", d16, s12, f2u(870.024)); TESTINSN_cvt_f64_i32("vcvt.f64.u32 d29, s7", d29, s7, f2u(-2543.4506)); TESTINSN_cvt_f64_i32("vcvt.f64.u32 d12, s28", d12, s28, f2u(5.00003245)); TESTINSN_cvt_f64_i32("vcvt.f64.u32 d7, s5", d7, s5, f2u(-INFINITY)); TESTINSN_cvt_f64_i32("vcvt.f64.u32 d21, s20", d21, s20, f2u(INFINITY)); TESTINSN_cvt_f64_i32("vcvt.f64.u32 d11, s11", d11, s11, f2u(NAN)); TESTINSN_cvt_f64_i32("vcvt.f64.s32 d0, s1", d0, s1, f2u(3.2)); TESTINSN_cvt_f64_i32("vcvt.f64.s32 d30, s21", d30, s21, f2u(-656.42)); TESTINSN_cvt_f64_i32("vcvt.f64.s32 d16, s12", d16, s12, f2u(870.024)); TESTINSN_cvt_f64_i32("vcvt.f64.s32 d29, s7", d29, s7, f2u(-2543.4506)); TESTINSN_cvt_f64_i32("vcvt.f64.s32 d12, s28", d12, s28, f2u(5.00003245)); TESTINSN_cvt_f64_i32("vcvt.f64.s32 d7, s5", d7, s5, f2u(-INFINITY)); TESTINSN_cvt_f64_i32("vcvt.f64.s32 d21, s20", d21, s20, f2u(INFINITY)); TESTINSN_cvt_f64_i32("vcvt.f64.s32 d11, s11", d11, s11, f2u(NAN)); /* printf("---- VCVT (fixed <-> fp) ----\n"); TESTINSN_un_f32("vcvt.u32.f32 s0, s0, #3", s0, s0, i32, f2u(3.2)); TESTINSN_un_f32("vcvt.u32.f32 s11, s11, #1", s11, s11, i32, f2u(3e22)); TESTINSN_un_f32("vcvt.u32.f32 s15, s15, #32", s15, s15, i32, f2u(3e9)); TESTINSN_un_f32("vcvt.u32.f32 s4, s4, #7", s4, s4, i32, f2u(-0.5)); TESTINSN_un_f32("vcvt.u32.f32 s6, s6, #4", s6, s6, i32, f2u(-7.1)); TESTINSN_un_f32("vcvt.u32.f32 s12, s12, #3", s12, s12, i32, f2u(8.0 - 1.0/1024.0)); TESTINSN_un_f32("vcvt.u32.f32 s8, s8, #3", s8, s8, i32, f2u(-8.0 + 1.0/1024.0)); TESTINSN_un_f32("vcvt.u32.f32 s30, s30, #3", s30, s30, i32, f2u(NAN)); TESTINSN_un_f32("vcvt.u32.f32 s20, s20, #3", s20, s20, i32, f2u(0.0)); TESTINSN_un_f32("vcvt.u32.f32 s13, s13, #6", s13, s13, i32, f2u(INFINITY)); TESTINSN_un_f32("vcvt.u32.f32 s16, s16, #3", s16, s16, i32, f2u(-INFINITY)); TESTINSN_un_f32("vcvt.s32.f32 s1, s1, #5", s1, s1, i32, f2u(3.2)); TESTINSN_un_f32("vcvt.s32.f32 s21, s21, #1", s21, s21, i32, f2u(3e22)); TESTINSN_un_f32("vcvt.s32.f32 s17, s17, #8", s17, s17, i32, f2u(3e9)); TESTINSN_un_f32("vcvt.s32.f32 s27, s27, #2", s27, s27, i32, f2u(-0.5)); TESTINSN_un_f32("vcvt.s32.f32 s15, s15, #1", s15, s15, i32, f2u(-7.1)); TESTINSN_un_f32("vcvt.s32.f32 s8, s8, #2", s8, s8, i32, f2u(8.0 - 1.0/1024.0)); TESTINSN_un_f32("vcvt.s32.f32 s31, s31, #2", s31, s31, i32, f2u(-8.0 + 1.0/1024.0)); TESTINSN_un_f32("vcvt.s32.f32 s10, s10, #3", s10, s10, i32, f2u(0.0)); TESTINSN_un_f32("vcvt.s32.f32 s13, s13, #9", s13, s13, i32, f2u(INFINITY)); TESTINSN_un_f32("vcvt.s32.f32 s22, s22, #3", s22, s22, i32, f2u(-INFINITY)); TESTINSN_un_f32("vcvt.s32.f32 s1, s1, #7", s1, s1, i32, f2u(NAN)); TESTINSN_un_f32("vcvt.f32.u32 s0, s0, #3", s0, s0, i32, f2u(3.2)); TESTINSN_un_f32("vcvt.f32.u32 s11, s11, #1", s11, s11, i32, f2u(3e22)); TESTINSN_un_f32("vcvt.f32.u32 s15, s15, #32", s15, s15, i32, f2u(3e9)); TESTINSN_un_f32("vcvt.f32.u32 s4, s4, #7", s4, s4, i32, f2u(-0.5)); TESTINSN_un_f32("vcvt.f32.u32 s6, s6, #4", s6, s6, i32, f2u(-7.1)); TESTINSN_un_f32("vcvt.f32.u32 s12, s12, #3", s12, s12, i32, f2u(8.0 - 1.0/1024.0)); TESTINSN_un_f32("vcvt.f32.u32 s8, s8, #3", s8, s8, i32, f2u(-8.0 + 1.0/1024.0)); TESTINSN_un_f32("vcvt.f32.u32 s30, s30, #3", s30, s30, i32, f2u(NAN)); TESTINSN_un_f32("vcvt.f32.u32 s20, s20, #3", s20, s20, i32, f2u(0.0)); TESTINSN_un_f32("vcvt.f32.u32 s13, s13, #6", s13, s13, i32, f2u(INFINITY)); TESTINSN_un_f32("vcvt.f32.u32 s16, s16, #3", s16, s16, i32, f2u(-INFINITY)); TESTINSN_un_f32("vcvt.f32.s32 s1, s1, #5", s1, s1, i32, f2u(3.2)); TESTINSN_un_f32("vcvt.f32.s32 s21, s21, #1", s21, s21, i32, f2u(3e22)); TESTINSN_un_f32("vcvt.f32.s32 s17, s17, #8", s17, s17, i32, f2u(3e9)); TESTINSN_un_f32("vcvt.f32.s32 s27, s27, #2", s27, s27, i32, f2u(-0.5)); TESTINSN_un_f32("vcvt.f32.s32 s15, s15, #1", s15, s15, i32, f2u(-7.1)); TESTINSN_un_f32("vcvt.f32.s32 s8, s8, #2", s8, s8, i32, f2u(8.0 - 1.0/1024.0)); TESTINSN_un_f32("vcvt.f32.s32 s31, s31, #2", s31, s31, i32, f2u(-8.0 + 1.0/1024.0)); TESTINSN_un_f32("vcvt.f32.s32 s10, s10, #3", s10, s10, i32, f2u(0.0)); TESTINSN_un_f32("vcvt.f32.s32 s13, s13, #9", s13, s13, i32, f2u(INFINITY)); TESTINSN_un_f32("vcvt.f32.s32 s22, s22, #3", s22, s22, i32, f2u(-INFINITY)); TESTINSN_un_f32("vcvt.f32.s32 s1, s1, #7", s1, s1, i32, f2u(NAN)); */ printf("---- VCVT (single <-> double) ----\n"); TESTINSN_un_cvt_ds("vcvt.f64.f32 d0, s1", d0, s1, f2u(3.2)); TESTINSN_un_cvt_ds("vcvt.f64.f32 d29, s21", d29, s21, f2u(234.65)); TESTINSN_un_cvt_ds("vcvt.f64.f32 d16, s30", d16, s30, f2u(-700.63)); TESTINSN_un_cvt_ds("vcvt.f64.f32 d11, s7", d11, s7, f2u(8.0 - 1.0/1024.0)); TESTINSN_un_cvt_ds("vcvt.f64.f32 d30, s3", d30, s3, f2u(-8.0 + 1.0/1024.0)); TESTINSN_un_cvt_ds("vcvt.f64.f32 d7, s19", d7, s19, f2u(12.43303)); TESTINSN_un_cvt_ds("vcvt.f64.f32 d2, s11", d2, s11, f2u(65.4235)); TESTINSN_un_cvt_ds("vcvt.f64.f32 d9, s21", d9, s21, f2u(NAN)); TESTINSN_un_cvt_ds("vcvt.f64.f32 d17, s29", d17, s29, f2u(-INFINITY)); TESTINSN_un_cvt_ds("vcvt.f64.f32 d19, s0", d19, s0, f2u(INFINITY)); TESTINSN_un_cvt_sd("vcvt.f32.f64 s0, d1", s0, d1, f2u0(3.2), f2u1(3.2)); TESTINSN_un_cvt_sd("vcvt.f32.f64 s29, d21", s29, d21, f2u0(234.65), f2u1(234.65)); TESTINSN_un_cvt_sd("vcvt.f32.f64 s16, d30", s16, d30, f2u0(-700.63), f2u1(-700.63)); TESTINSN_un_cvt_sd("vcvt.f32.f64 s11, d7", s11, d7, f2u0(8.0 - 1.0/1024.0), f2u1(8.0 - 1.0/1024.0)); TESTINSN_un_cvt_sd("vcvt.f32.f64 s30, d3", s30, d3, f2u0(-8.0 + 1.0/1024.0), f2u1(-8.0 + 1.0/1024.0)); TESTINSN_un_cvt_sd("vcvt.f32.f64 s7, d19", s7, d19, f2u0(12.43303), f2u1(12.43303)); TESTINSN_un_cvt_sd("vcvt.f32.f64 s2, d11", s2, d11, f2u0(65.4235), f2u1(65.4235)); TESTINSN_un_cvt_sd("vcvt.f32.f64 s9, d21", s9, d21, f2u0(NAN), f2u1(NAN)); TESTINSN_un_cvt_sd("vcvt.f32.f64 s17, d29", s17, d29, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_un_cvt_sd("vcvt.f32.f64 s19, d0", s19, d0, f2u0(INFINITY), f2u1(INFINITY)); printf("---- VCMP ----\n"); TESTINSN_cmp_f64("vcmp.f64 d0, d19", d0, f2u0(-3.4567), f2u1(-3.4567), d19, f2u0(-2.6245), f2u1(-2.6245)); TESTINSN_cmp_f64("vcmp.f64 d11, d16", d11, f2u0(23475.45), f2u1(23475.45), d16, f2u0(3425.5), f2u1(3425.5)); TESTINSN_cmp_f64("vcmp.f64 d21, d30", d21, f2u0(-4524.5), f2u1(-4524.5), d30, f2u0(-452345.5), f2u1(-452345.5)); TESTINSN_cmp_f64("vcmp.f64 d7, d28", d7, f2u0(425.5), f2u1(425.5), d28, f2u0(-456.3), f2u1(-456.3)); TESTINSN_cmp_f64("vcmp.f64 d29, d3", d29, f2u0(INFINITY), f2u1(INFINITY), d3, f2u0(34562.45), f2u1(34562.45)); TESTINSN_cmp_f64("vcmp.f64 d3, d22", d3, f2u0(2.0), f2u1(2.0), d22, f2u0(2.0), f2u1(2.0)); TESTINSN_cmp_f64("vcmp.f64 d3, d22", d3, f2u0(12.023), f2u1(12.023), d22, f2u0(12.023), f2u1(12.023)); TESTINSN_cmp_f64("vcmp.f64 d3, d22", d3, f2u0(0.0), f2u1(0.0), d22, f2u0(0.0), f2u1(0.0)); TESTINSN_cmp_f64("vcmp.f64 d9, d2", d9, f2u0(INFINITY), f2u1(INFINITY), d2, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_cmp_f64("vcmp.f64 d30, d15", d30, f2u0(-INFINITY), f2u1(-INFINITY), d15, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_cmp_f64("vcmp.f64 d0, d19", d0, f2u0(-3.4567), f2u1(-3.4567), d19, f2u0(-2.6245), f2u1(-2.6245)); TESTINSN_cmp_f64("vcmp.f64 d11, d16", d11, f2u0(-5463.7), f2u1(-5463.7), d16, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_cmp_f64("vcmp.f64 d21, d30", d21, f2u0(-INFINITY), f2u1(-INFINITY), d30, f2u0(86.7), f2u1(86.7)); TESTINSN_cmp_f64("vcmp.f64 d7, d28", d7, f2u0(INFINITY), f2u1(INFINITY), d28, f2u0(-8567.456), f2u1(-8567.456)); TESTINSN_cmp_f64("vcmp.f64 d29, d3", d29, f2u0(-524.4), f2u1(-524.4), d3, f2u0(654.5), f2u1(654.5)); TESTINSN_cmp_f64("vcmp.f64 d3, d22", d3, f2u0(NAN), f2u1(NAN), d22, f2u0(-6.46524), f2u1(-6.46524)); TESTINSN_cmp_f64("vcmp.f64 d9, d2", d9, f2u0(56.563), f2u1(56.563), d2, f2u0(56.56), f2u1(56.56)); TESTINSN_cmp_f64("vcmp.f64 d30, d15", d30, f2u0(5365.60001), f2u1(5365.60001), d15, f2u0(56763.5), f2u1(56763.5)); TESTINSN_cmp_f64("vcmpe.f64 d0, d19", d0, f2u0(-3.4567), f2u1(-3.4567), d19, f2u0(-2.6245), f2u1(-2.6245)); TESTINSN_cmp_f64("vcmpe.f64 d11, d16", d11, f2u0(23475.45), f2u1(23475.45), d16, f2u0(3425.5), f2u1(3425.5)); TESTINSN_cmp_f64("vcmpe.f64 d11, d16", d11, f2u0(23475.45), f2u1(23475.45), d16, f2u0(NAN), f2u1(NAN)); TESTINSN_cmp_f64("vcmpe.f64 d21, d30", d21, f2u0(-4524.5), f2u1(-4524.5), d30, f2u0(-452345.5), f2u1(-452345.5)); TESTINSN_cmp_f64("vcmpe.f64 d7, d28", d7, f2u0(425.5), f2u1(425.5), d28, f2u0(-456.3), f2u1(-456.3)); TESTINSN_cmp_f64("vcmpe.f64 d29, d3", d29, f2u0(INFINITY), f2u1(INFINITY), d3, f2u0(34562.45), f2u1(34562.45)); TESTINSN_cmp_f64("vcmpe.f64 d3, d22", d3, f2u0(2.0), f2u1(2.0), d22, f2u0(2.0), f2u1(2.0)); TESTINSN_cmp_f64("vcmpe.f64 d9, d2", d9, f2u0(INFINITY), f2u1(INFINITY), d2, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_cmp_f64("vcmpe.f64 d30, d15", d30, f2u0(-INFINITY), f2u1(-INFINITY), d15, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_cmp_f64("vcmpe.f64 d0, d19", d0, f2u0(-3.4567), f2u1(-3.4567), d19, f2u0(-2.6245), f2u1(-2.6245)); TESTINSN_cmp_f64("vcmpe.f64 d11, d16", d11, f2u0(-5463.7), f2u1(-5463.7), d16, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_cmp_f64("vcmpe.f64 d21, d30", d21, f2u0(-INFINITY), f2u1(-INFINITY), d30, f2u0(86.7), f2u1(86.7)); TESTINSN_cmp_f64("vcmpe.f64 d7, d28", d7, f2u0(INFINITY), f2u1(INFINITY), d28, f2u0(-8567.456), f2u1(-8567.456)); TESTINSN_cmp_f64("vcmpe.f64 d29, d3", d29, f2u0(-524.4), f2u1(-524.4), d3, f2u0(654.5), f2u1(654.5)); TESTINSN_cmp_f64("vcmpe.f64 d3, d22", d3, f2u0(4624.5), f2u1(4624.5), d22, f2u0(-6.46524), f2u1(-6.46524)); TESTINSN_cmp_f64("vcmpe.f64 d9, d2", d9, f2u0(56.563), f2u1(56.563), d2, f2u0(56.56), f2u1(56.56)); TESTINSN_cmp_f64("vcmpe.f64 d30, d15", d30, f2u0(5365.60001), f2u1(5365.60001), d15, f2u0(56763.5), f2u1(56763.5)); TESTINSN_cmp_f32("vcmp.f32 s0, s19", s0, f2u(-3.4567), s19, f2u(-2.6245)); TESTINSN_cmp_f32("vcmp.f32 s11, s16", s11, f2u(23475.45), s16, f2u(3425.5)); TESTINSN_cmp_f32("vcmp.f32 s3, s22", s3, f2u(2.0), s22, f2u(2.0)); TESTINSN_cmp_f32("vcmp.f32 s0, s19", s0, f2u(-3.4567), s19, f2u(-2.6245)); TESTINSN_cmp_f32("vcmp.f32 s11, s16", s11, f2u(23475.45), s16, f2u(3425.5)); TESTINSN_cmp_f32("vcmp.f32 s21, s30", s21, f2u(-4524.5), s30, f2u(-452345.5)); TESTINSN_cmp_f32("vcmp.f32 s7, s28", s7, f2u(425.5), s28, f2u(-456.3)); TESTINSN_cmp_f32("vcmp.f32 s29, s3", s29, f2u(INFINITY), s3, f2u(34562.45)); TESTINSN_cmp_f32("vcmp.f32 s3, s22", s3, f2u(12.023), s22, f2u(12.023)); TESTINSN_cmp_f32("vcmp.f32 s3, s22", s3, f2u(0.0), s22, f2u(0.0)); TESTINSN_cmp_f32("vcmp.f32 s9, s2", s9, f2u(INFINITY), s2, f2u(INFINITY)); TESTINSN_cmp_f32("vcmp.f32 s30, s15", s30, f2u(-INFINITY),s15, f2u(-INFINITY)); TESTINSN_cmp_f32("vcmp.f32 s0, s19", s0, f2u(-3.4567), s19, f2u(-2.6245)); TESTINSN_cmp_f32("vcmp.f32 s11, s16", s11, f2u(-5463.7), s16, f2u(-INFINITY)); TESTINSN_cmp_f32("vcmp.f32 s21, s30", s21, f2u(-INFINITY),s30, f2u(86.7)); TESTINSN_cmp_f32("vcmp.f32 s7, s28", s7, f2u(INFINITY), s28, f2u(-8567.456)); TESTINSN_cmp_f32("vcmp.f32 s29, s3", s29, f2u(-524.4), s3, f2u(654.5)); TESTINSN_cmp_f32("vcmp.f32 s3, s22", s3, f2u(NAN), s22, f2u(-6.46524)); TESTINSN_cmp_f32("vcmp.f32 s9, s2", s9, f2u(56.563), s2, f2u(56.56)); TESTINSN_cmp_f32("vcmp.f32 s30, s15", s30, f2u(5365.60001), s15, f2u(56763.5)); TESTINSN_cmp_f32("vcmpe.f32 s0, s19", s0, f2u(-3.4567), s19, f2u(-2.6245)); TESTINSN_cmp_f32("vcmpe.f32 s11, s16", s11, f2u(23475.45), s16, f2u(3425.5)); TESTINSN_cmp_f32("vcmpe.f32 s11, s16", s11, f2u(23475.45), s16, f2u(NAN)); TESTINSN_cmp_f32("vcmpe.f32 s21, s30", s21, f2u(-4524.5), s30, f2u(-452345.5)); TESTINSN_cmp_f32("vcmpe.f32 s7, s28", s7, f2u(425.5), s28, f2u(-456.3)); TESTINSN_cmp_f32("vcmpe.f32 s29, s3", s29, f2u(INFINITY), s3, f2u(34562.45)); TESTINSN_cmp_f32("vcmpe.f32 s3, s22", s3, f2u(2.0), s22, f2u(2.0)); TESTINSN_cmp_f32("vcmpe.f32 s9, s2", s9, f2u(INFINITY), s2, f2u(INFINITY)); TESTINSN_cmp_f32("vcmpe.f32 s30, s15", s30, f2u(-INFINITY), s15, f2u(-INFINITY)); TESTINSN_cmp_f32("vcmpe.f32 s0, s19", s0, f2u(-3.4567), s19, f2u(-2.6245)); TESTINSN_cmp_f32("vcmpe.f32 s11, s16", s11, f2u(-5463.7), s16, f2u(-INFINITY)); TESTINSN_cmp_f32("vcmpe.f32 s21, s30", s21, f2u(-INFINITY), s30, f2u(86.7)); TESTINSN_cmp_f32("vcmpe.f32 s7, s28", s7, f2u(INFINITY), s28, f2u(-8567.456)); TESTINSN_cmp_f32("vcmpe.f32 s29, s3", s29, f2u(-524.4), s3, f2u(654.5)); TESTINSN_cmp_f32("vcmpe.f32 s3, s22", s3, f2u(4624.5), s22, f2u(-6.46524)); TESTINSN_cmp_f32("vcmpe.f32 s9, s2", s9, f2u(56.563), s2, f2u(56.56)); TESTINSN_cmp_f32("vcmpe.f32 s9, s2", s9, f2u(0.0), s2, f2u(56.56)); TESTINSN_cmp_f32("vcmpe.f32 s9, s2", s9, f2u(10.0), s2, f2u(0.0)); TESTINSN_cmp_f32("vcmpe.f32 s9, s2", s9, f2u(0.0), s2, f2u(0.0)); TESTINSN_cmp_f32("vcmpe.f32 s9, s2", s9, f2u(0.0), s2, f2u(0.0)); printf("---- VCMP (zero) ----\n"); TESTINSN_cmpz_f64("vcmp.f64 d0", d0, f2u0(-3.4567), f2u1(-3.4567)); TESTINSN_cmpz_f64("vcmp.f64 d11", d11, f2u0(23475.45), f2u1(23475.45)); TESTINSN_cmpz_f64("vcmp.f64 d21", d21, f2u0(-4524.5), f2u1(-4524.5)); TESTINSN_cmpz_f64("vcmp.f64 d7", d7, f2u0(425.5), f2u1(425.5)); TESTINSN_cmpz_f64("vcmp.f64 d29", d29, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_cmpz_f64("vcmp.f64 d3", d3, f2u0(2.0), f2u1(2.0)); TESTINSN_cmpz_f64("vcmp.f64 d3", d3, f2u0(0.0), f2u1(0.0)); TESTINSN_cmpz_f64("vcmp.f64 d9", d9, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_cmpz_f64("vcmp.f64 d30", d30, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_cmpz_f64("vcmp.f64 d0", d0, f2u0(-3.4567), f2u1(-3.4567)); TESTINSN_cmpz_f64("vcmp.f64 d11", d11, f2u0(-5463.7), f2u1(-5463.7)); TESTINSN_cmpz_f64("vcmp.f64 d21", d21, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_cmpz_f64("vcmp.f64 d7", d7, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_cmpz_f64("vcmp.f64 d29", d29, f2u0(-524.4), f2u1(-524.4)); TESTINSN_cmpz_f64("vcmp.f64 d3", d3, f2u0(4624.5), f2u1(4624.5)); TESTINSN_cmpz_f64("vcmp.f64 d9", d9, f2u0(NAN), f2u1(NAN)); TESTINSN_cmpz_f64("vcmp.f64 d30", d30, f2u0(5365.60001), f2u1(5365.60001)); TESTINSN_cmpz_f64("vcmpe.f64 d0", d0, f2u0(-3.4567), f2u1(-3.4567)); TESTINSN_cmpz_f64("vcmpe.f64 d11", d11, f2u0(23475.45), f2u1(23475.45)); TESTINSN_cmpz_f64("vcmpe.f64 d21", d21, f2u0(-4524.5), f2u1(-4524.5)); TESTINSN_cmpz_f64("vcmpe.f64 d7", d7, f2u0(425.5), f2u1(425.5)); TESTINSN_cmpz_f64("vcmpe.f64 d29", d29, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_cmpz_f64("vcmpe.f64 d3", d3, f2u0(2.0), f2u1(2.0)); TESTINSN_cmpz_f64("vcmpe.f64 d3", d3, f2u0(0.0), f2u1(0.0)); TESTINSN_cmpz_f64("vcmpe.f64 d9", d9, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_cmpz_f64("vcmpe.f64 d30", d30, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_cmpz_f64("vcmpe.f64 d0", d0, f2u0(-3.4567), f2u1(-3.4567)); TESTINSN_cmpz_f64("vcmpe.f64 d11", d11, f2u0(-5463.7), f2u1(-5463.7)); TESTINSN_cmpz_f64("vcmpe.f64 d21", d21, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_cmpz_f64("vcmpe.f64 d7", d7, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_cmpz_f64("vcmpe.f64 d29", d29, f2u0(-524.4), f2u1(-524.4)); TESTINSN_cmpz_f64("vcmpe.f64 d3", d3, f2u0(4624.5), f2u1(4624.5)); TESTINSN_cmpz_f64("vcmpe.f64 d9", d9, f2u0(NAN), f2u1(NAN)); TESTINSN_cmpz_f64("vcmpe.f64 d30", d30, f2u0(5365.60001), f2u1(5365.60001)); TESTINSN_cmpz_f32("vcmp.f32 s0", s0, f2u(-3.4567)); TESTINSN_cmpz_f32("vcmp.f32 s11", s11, f2u(23475.45)); TESTINSN_cmpz_f32("vcmp.f32 s21", s21, f2u(-4524.5)); TESTINSN_cmpz_f32("vcmp.f32 s7", s7, f2u(425.5)); TESTINSN_cmpz_f32("vcmp.f32 s29", s29, f2u(INFINITY)); TESTINSN_cmpz_f32("vcmp.f32 s3", s3, f2u(2.0)); TESTINSN_cmpz_f32("vcmp.f32 s3", s3, f2u(0.0)); TESTINSN_cmpz_f32("vcmp.f32 s9", s9, f2u(INFINITY)); TESTINSN_cmpz_f32("vcmp.f32 s30", s30, f2u(-INFINITY)); TESTINSN_cmpz_f32("vcmp.f32 s0", s0, f2u(-3.4567)); TESTINSN_cmpz_f32("vcmp.f32 s11", s11, f2u(-5463.7)); TESTINSN_cmpz_f32("vcmp.f32 s21", s21, f2u(-INFINITY)); TESTINSN_cmpz_f32("vcmp.f32 s7", s7, f2u(INFINITY)); TESTINSN_cmpz_f32("vcmp.f32 s29", s29, f2u(-524.4)); TESTINSN_cmpz_f32("vcmp.f32 s3", s3, f2u(4624.5)); TESTINSN_cmpz_f32("vcmp.f32 s9", s9, f2u(NAN)); TESTINSN_cmpz_f32("vcmp.f32 s30", s30, f2u(5365.60001)); TESTINSN_cmpz_f32("vcmpe.f32 s0", s0, f2u(-3.4567)); TESTINSN_cmpz_f32("vcmpe.f32 s11", s11, f2u(23475.45)); TESTINSN_cmpz_f32("vcmpe.f32 s21", s21, f2u(-4524.5)); TESTINSN_cmpz_f32("vcmpe.f32 s7", s7, f2u(425.5)); TESTINSN_cmpz_f32("vcmpe.f32 s29", s29, f2u(INFINITY)); TESTINSN_cmpz_f32("vcmpe.f32 s3", s3, f2u(2.0)); TESTINSN_cmpz_f32("vcmpe.f32 s3", s3, f2u(0.0)); TESTINSN_cmpz_f32("vcmpe.f32 s9", s9, f2u(INFINITY)); TESTINSN_cmpz_f32("vcmpe.f32 s30", s30, f2u(-INFINITY)); TESTINSN_cmpz_f32("vcmpe.f32 s0", s0, f2u(-3.4567)); TESTINSN_cmpz_f32("vcmpe.f32 s11", s11, f2u(-5463.7)); TESTINSN_cmpz_f32("vcmpe.f32 s21", s21, f2u(-INFINITY)); TESTINSN_cmpz_f32("vcmpe.f32 s7", s7, f2u(INFINITY)); TESTINSN_cmpz_f32("vcmpe.f32 s29", s29, f2u(-524.4)); TESTINSN_cmpz_f32("vcmpe.f32 s3", s3, f2u(4624.5)); TESTINSN_cmpz_f32("vcmpe.f32 s9", s9, f2u(NAN)); TESTINSN_cmpz_f32("vcmpe.f32 s30", s30, f2u(5365.60001)); int numbers[8] ={ 0xaa0, 0xbb1, 0xcc2, 0xdd3, 0x11a, 0x22b, 0x33c, 0x44d }; printf("---- VLDR ----\n"); TESTINSN_vldr_f64("vldr d9, [r6, #+4]", d9, r6, (long) numbers + 8, 4); TESTINSN_vldr_f64("vldr d16, [r9, #-4]", d16, r9, (long) numbers + 8, -4); TESTINSN_vldr_f64("vldr d30, [r12]", d30, r12, (long) numbers + 8, 0); TESTINSN_vldr_f64("vldr d22, [r9, #+8]", d22, r9, (long) numbers + 8, 8); TESTINSN_vldr_f64("vldr d29, [r2, #-8]", d29, r2, (long) numbers + 8, -8); TESTINSN_vldr_f64("vldr d8, [r8, #+8]", d8, r8, (long) numbers + 8, 8); TESTINSN_vldr_f64("vldr d11, [r12, #-4]", d11, r12, (long) numbers + 8, -4); TESTINSN_vldr_f64("vldr d18, [r3]", d18, r3, (long) numbers + 8, 0); TESTINSN_vldr_f64("vldr d5, [r10, #+8]", d5, r10, (long) numbers + 8, 8); TESTINSN_vldr_f64("vldr d17, [r10]", d17, r10, (long) numbers + 8, 0); TESTINSN_vldr_f64("vldr d9, [r9, #-4]", d9, r9, (long) numbers + 8, -4); TESTINSN_vldr_f64("vldr d29, [r4, #-8]", d29, r4, (long) numbers + 8, -8); TESTINSN_vldr_f64("vldr d21, [r6, #+4]", d21, r6, (long) numbers + 8, 4); TESTINSN_vldr_f64("vldr d8, [r4]", d8, r4, (long) numbers + 8, 0); TESTINSN_vldr_f64("vldr d19, [r0, #-8]", d19, r0, (long) numbers + 8, -8); TESTINSN_vldr_f64("vldr d10, [r3, #+4]", d10, r3, (long) numbers + 8, 4); TESTINSN_vldr_f32("vldr s10, [r3, #+4]", s10, r3, (long) numbers + 8, 4); TESTINSN_vldr_f32("vldr s9, [r6, #+4]", s9, r6, (long) numbers + 8, 4); TESTINSN_vldr_f32("vldr s16, [r9, #-4]", s16, r9, (long) numbers + 8, -4); TESTINSN_vldr_f32("vldr s30, [r12]", s30, r12, (long) numbers + 8, 0); TESTINSN_vldr_f32("vldr s22, [r9, #+8]", s22, r9, (long) numbers + 8, 8); TESTINSN_vldr_f32("vldr s29, [r2, #-8]", s29, r2, (long) numbers + 8, -8); TESTINSN_vldr_f32("vldr s8, [r8, #+8]", s8, r8, (long) numbers + 8, 8); TESTINSN_vldr_f32("vldr s11, [r12, #-4]", s11, r12, (long) numbers + 8, -4); TESTINSN_vldr_f32("vldr s18, [r3]", s18, r3, (long) numbers + 8, 0); TESTINSN_vldr_f32("vldr s5, [r10, #+8]", s5, r10, (long) numbers + 8, 8); TESTINSN_vldr_f32("vldr s17, [r10]", s17, r10, (long) numbers + 8, 0); TESTINSN_vldr_f32("vldr s9, [r9, #-4]", s9, r9, (long) numbers + 8, -4); TESTINSN_vldr_f32("vldr s29, [r4, #-8]", s29, r4, (long) numbers + 8, -8); TESTINSN_vldr_f32("vldr s21, [r6, #+4]", s21, r6, (long) numbers + 8, 4); TESTINSN_vldr_f32("vldr s8, [r4]", s8, r4, (long) numbers + 8, 0); TESTINSN_vldr_f32("vldr s19, [r0, #-8]", s19, r0, (long) numbers + 8, -8); TESTINSN_vldr_f32("vldr s10, [r3, #+4]", s10, r3, (long) numbers + 8, 4); printf("---- VLDM (Increment After, writeback) ----\n"); TESTINSN_VLDMIAWB(r6, d17, d7); TESTINSN_VLDMIAWB(r4, d11, d23); TESTINSN_VLDMIAWB(r9, d29, d12); TESTINSN_VLDMIAWB(r9, d0, d30); TESTINSN_VLDMIAWB(r12, d8, d24); TESTINSN_VLDMIAWB(r3, d27, d13); TESTINSN_VLDMIAWB(r10, d20, d30); TESTINSN_VLDMIAWB(r0, d0, d1); TESTINSN_VLDMIAWB(r8, d15, d19); TESTINSN_VLDMIAWB(r3, d31, d30); TESTINSN_VLDMIAWB(r10, d6, d23); TESTINSN_VLDMIAWB(r8, d8, d16); TESTINSN_VLDMIAWB(r9, d13, d11); TESTINSN_VLDMIAWB(r1, d3, d8); TESTINSN_VLDMIAWB(r2, d4, d8); TESTINSN_VLDMIAWB(r3, d9, d27); printf("---- VSTR ----\n"); TESTINSN_vstr64("vstr d9, [r6, #+4]", d9, 0xa0, r6, (long) numbers + 8, 4); TESTINSN_vstr64("vstr d16, [r9, #-4]", d16, 0xb1, r9, (long) numbers + 8, -4); TESTINSN_vstr64("vstr d30, [r12]", d30, 0xc2, r12, (long) numbers + 8, 0); TESTINSN_vstr64("vstr d22, [r9, #+8]", d22, 0xd4, r9, (long) numbers + 8, 8); TESTINSN_vstr64("vstr d29, [r2, #-8]", d29, 0x00, r2, (long) numbers + 8, -8); TESTINSN_vstr64("vstr d8, [r8, #+8]", d8, 0x11, r8, (long) numbers + 8, 8); TESTINSN_vstr64("vstr d11, [r12, #-4]", d11, 0x22, r12, (long) numbers + 8, -4); TESTINSN_vstr64("vstr d18, [r3]", d18, 0x33, r3, (long) numbers + 8, 0); TESTINSN_vstr64("vstr d5, [r10, #+8]", d5, 0x99, r10, (long) numbers + 8, 8); TESTINSN_vstr64("vstr d17, [r10]", d17, 0x77, r10, (long) numbers + 8, 0); TESTINSN_vstr64("vstr d9, [r9, #-4]", d9, 0xee, r9, (long) numbers + 8, -4); TESTINSN_vstr64("vstr d29, [r4, #-8]", d29, 0xff, r4, (long) numbers + 8, -8); TESTINSN_vstr64("vstr d10, [r3, #+4]", d10, 0xbc, r3, (long) numbers + 8, 4); TESTINSN_vstr64("vstr d21, [r6, #+4]", d21, 0x48, r6, (long) numbers + 8, 4); TESTINSN_vstr64("vstr d8, [r4]", d8, 0x1f, r4, (long) numbers + 8, 0); TESTINSN_vstr64("vstr d19, [r0, #-8]", d19, 0xf9, r0, (long) numbers + 8, -8); TESTINSN_vstr32("vstr s9, [r6, #+4]", s9, r6, (long) numbers + 8, 4); TESTINSN_vstr32("vstr s21, [r9, #-4]", s21, r9, (long) numbers + 8, -4); TESTINSN_vstr32("vstr s4, [r3, #+8]", s4, r3, (long) numbers + 8, 8); TESTINSN_vstr32("vstr s19, [r4, #-8]", s19, r4, (long) numbers + 8, -8); TESTINSN_vstr32("vstr s29, [r8]", s29, r8, (long) numbers + 8, 0); TESTINSN_vstr32("vstr s8, [r12]", s8, r12, (long) numbers + 8, 0); TESTINSN_vstr32("vstr s16, [r0, #+4]", s16, r0, (long) numbers + 8, 4); TESTINSN_vstr32("vstr s0, [r8, #-4]", s0, r8, (long) numbers + 8, -4); TESTINSN_vstr32("vstr s3, [r9, #+8]", s3, r9, (long) numbers + 8, 8); TESTINSN_vstr32("vstr s9, [r10, #-8]", s9, r10, (long) numbers + 8, -8); TESTINSN_vstr32("vstr s11, [r2]", s11, r2, (long) numbers + 8, 0); TESTINSN_vstr32("vstr s30, [r0]", s30, r0, (long) numbers + 8, 0); printf("---- VSTM (Increment After, no writeback) ----\n"); TESTINSN_VSTMIAnoWB("vstmia r6, {d21}", r6, d21, 0xab); TESTINSN_VSTMIAnoWB("vstmia r1, {d1}", r1, d1, 0x13); TESTINSN_VSTMIAnoWB("vstmia r9, {d2}", r9, d2, 0x78); TESTINSN_VSTMIAnoWB("vstmia r4, {d30}", r4, d30, 0x0); TESTINSN_VSTMIAnoWB("vstmia r12, {d23}", r12, d23, 0xb9); TESTINSN_VSTMIAnoWB("vstmia r6, {d16}", r6, d16, 0xa6); TESTINSN_VSTMIAnoWB("vstmia r6, {d8}", r6, d8, 0x7f); TESTINSN_VSTMIAnoWB("vstmia r6, {d27}", r6, d27, 0xff); TESTINSN_VSTMIAnoWB("vstmia r5, {d11}", r5, d11, 0x32); TESTINSN_VSTMIAnoWB("vstmia r6, {d4}", r6, d4, 0x10); TESTINSN_VSTMIAnoWB("vstmia r10, {d9}", r10, d9, 0x4f); TESTINSN_VSTMIAnoWB("vstmia r9, {d29}", r9, d29, 0x97); TESTINSN_VSTMIAnoWB("vstmia r10, {d17}", r10, d17, 0xaa); TESTINSN_VSTMIAnoWB("vstmia r5, {d5}", r5, d5, 0x2b); TESTINSN_VSTMIAnoWB("vstmia r9, {d7}", r9, d7, 0x7b); TESTINSN_VSTMIAnoWB("vstmia r3, {d16}", r3, d16, 0x11); TESTINSN_VSTMIAnoWB32("vstmia r6, {s21}", r6, s21, 0xab); TESTINSN_VSTMIAnoWB32("vstmia r1, {s1}", r1, s1, 0x13); TESTINSN_VSTMIAnoWB32("vstmia r9, {s2}", r9, s2, 0x78); TESTINSN_VSTMIAnoWB32("vstmia r4, {s30}", r4, s30, 0x0); TESTINSN_VSTMIAnoWB32("vstmia r12, {s23}", r12, s23, 0xb9); TESTINSN_VSTMIAnoWB32("vstmia r6, {s16}", r6, s16, 0xa613451d); TESTINSN_VSTMIAnoWB32("vstmia r6, {s8}", r6, s8, 0x7f); TESTINSN_VSTMIAnoWB32("vstmia r6, {s27}", r6, s27, f2u(-INFINITY)); TESTINSN_VSTMIAnoWB32("vstmia r5, {s11}", r5, s11, f2u(NAN)); TESTINSN_VSTMIAnoWB32("vstmia r6, {s4}", r6, s4, 0x10ccb); TESTINSN_VSTMIAnoWB32("vstmia r10, {s9}", r10, s9, 0x4f543); TESTINSN_VSTMIAnoWB32("vstmia r9, {s29}", r9, s29, 0x97001a); TESTINSN_VSTMIAnoWB32("vstmia r10, {s17}", r10, s17, 0xaa45f); TESTINSN_VSTMIAnoWB32("vstmia r5, {s5}", r5, s5, f2u(NAN)); TESTINSN_VSTMIAnoWB32("vstmia r9, {s7}", r9, s7, f2u(-INFINITY)); TESTINSN_VSTMIAnoWB32("vstmia r3, {s16}", r3, s16, f2u(INFINITY)); printf("---- VSTM (Increment After, writeback) ----\n"); TESTINSN_VSTMIAWB(r6, d21, d2); TESTINSN_VSTMIAWB(r1, d1, d5); TESTINSN_VSTMIAWB(r9, d2, d17); TESTINSN_VSTMIAWB(r4, d30, d21); TESTINSN_VSTMIAWB(r12, d23, d29); TESTINSN_VSTMIAWB(r6, d16, d30); TESTINSN_VSTMIAWB(r6, d8, d12); TESTINSN_VSTMIAWB(r6, d27, d24); TESTINSN_VSTMIAWB(r5, d11, d13); TESTINSN_VSTMIAWB(r6, d4, d31); TESTINSN_VSTMIAWB(r10, d9, d27); TESTINSN_VSTMIAWB(r9, d29, d17); TESTINSN_VSTMIAWB(r10, d17, d7); TESTINSN_VSTMIAWB(r5, d5, d8); TESTINSN_VSTMIAWB(r9, d7, d16); TESTINSN_VSTMIAWB(r3, d16, d21); TESTINSN_VSTMIAWB32(r6, s21, s2); TESTINSN_VSTMIAWB32(r12, s23, s21); TESTINSN_VSTMIAWB32(r3, s3, s3); TESTINSN_VSTMIAWB32(r10, s19, s5); TESTINSN_VSTMIAWB32(r2, s3, s12); TESTINSN_VSTMIAWB32(r8, s7, s10); TESTINSN_VSTMIAWB32(r4, s30, s13); TESTINSN_VSTMIAWB32(r6, s17, s17); TESTINSN_VSTMIAWB32(r9, s11, s21); TESTINSN_VSTMIAWB32(r9, s8, s30); TESTINSN_VSTMIAWB32(r3, s12, s9); TESTINSN_VSTMIAWB32(r6, s6, s11); TESTINSN_VSTMIAWB32(r8, s17, s12); TESTINSN_VSTMIAWB32(r9, s12, s12); TESTINSN_VSTMIAWB32(r4, s11, s11); printf("---- VLDM (Decrement Before) ----\n"); TESTINSN_VLDMDB(r4, d11, d23); TESTINSN_VLDMDB(r9, d29, d12); TESTINSN_VLDMDB(r9, d0, d30); TESTINSN_VLDMDB(r12, d8, d24); TESTINSN_VLDMDB(r3, d27, d13); TESTINSN_VLDMDB(r6, d17, d7); TESTINSN_VLDMDB(r10, d20, d30); TESTINSN_VLDMDB(r0, d0, d1); TESTINSN_VLDMDB(r8, d15, d19); TESTINSN_VLDMDB(r3, d31, d30); TESTINSN_VLDMDB(r10, d6, d23); TESTINSN_VLDMDB(r8, d8, d16); TESTINSN_VLDMDB(r9, d13, d11); TESTINSN_VLDMDB(r1, d3, d8); TESTINSN_VLDMDB(r2, d4, d8); TESTINSN_VLDMDB(r3, d9, d27); printf("----- VMOV (immediate) -----\n"); TESTINSN_vmovf32_imm("vmov s0", s0, 0xbe880000); TESTINSN_vmovf32_imm("vmov s1", s1, 0x3fa80000); TESTINSN_vmovf32_imm("vmov s2", s2, 0xbf080000); TESTINSN_vmovf32_imm("vmov s5", s5, 0x3eb80000); TESTINSN_vmovf32_imm("vmov s7", s7, 0xbff80000); TESTINSN_vmovf32_imm("vmov s10", s10, 0xbe280000); TESTINSN_vmovf32_imm("vmov s12", s12, 0x40000000); TESTINSN_vmovf32_imm("vmov s13", s13, 0x3e880000); TESTINSN_vmovf32_imm("vmov s14", s14, 0xbee80000); TESTINSN_vmovf32_imm("vmov s15", s15, 0xc0b80000); printf("----- VMOV (ARM core register and single register) -----\n"); TESTINSN_vmov_core_single("vmov r12, s12", r12, s12, 0x4000aad); TESTINSN_vmov_core_single("vmov r2, s5", r2, s5, 0xab45e7); TESTINSN_vmov_core_single("vmov r5, s15", r5, s15, 0x00add12); TESTINSN_vmov_core_single("vmov r8, s11", r8, s11, 0x876450ff); TESTINSN_vmov_core_single("vmov r9, s5", r9, s5, 0xffff); TESTINSN_vmov_core_single("vmov r10, s9", r10, s9, 0x87d34f); TESTINSN_vmov_core_single("vmov r9, s10", r9, s10, 0x00ffff); TESTINSN_vmov_core_single("vmov r6, s8", r6, s8, 0xad4f8); TESTINSN_vmov_core_single("vmov r4, s14", r4, s14, 0x920b8cf); TESTINSN_vmov_core_single("vmov r3, s7", r3, s7, f2u(NAN)); TESTINSN_vmov_core_single("vmov r2, s0", r2, s0, f2u(-INFINITY)); TESTINSN_vmov_core_single("vmov r0, s1", r0, s1, f2u(INFINITY)); TESTINSN_vmov_single_core("vmov s2, r9", s2, r9, 0x9465a); TESTINSN_vmov_single_core("vmov s14, r0", s14, r0, 0xd0b87a); TESTINSN_vmov_single_core("vmov s4, r2", s4, r2, 0x452bbc8); TESTINSN_vmov_single_core("vmov s7, r8", s7, r8, 0xa7cb3d); TESTINSN_vmov_single_core("vmov s9, r4", s9, r4, 0xdd8ec); TESTINSN_vmov_single_core("vmov s10, r12", s10, r12, 0x8a7b6e); TESTINSN_vmov_single_core("vmov s13, r9", s13, r9, 0x4b00a); TESTINSN_vmov_single_core("vmov s3, r3", s3, r3, 0x0023455); TESTINSN_vmov_single_core("vmov s5, r5", s5, r5, f2u(INFINITY)); TESTINSN_vmov_single_core("vmov s8, r6", s8, r6, f2u(-INFINITY)); TESTINSN_vmov_single_core("vmov s4, r0", s4, r0, 0x000acb45); TESTINSN_vmov_single_core("vmov s0, r6", s0, r6, f2u(NAN)); printf("----- VMOV (ARM two core registers and two single registers) -----\n"); TESTINSN_vmov_2single_2core("vmov s0, s1, r6, r9", s0, s1, r6, r9, 0x43252acc, 0xabcc4); TESTINSN_vmov_2single_2core("vmov s0, s1, r9, r9", s0, s1, r9, r9, 0x43252acc, 0xabcc4); TESTINSN_vmov_2single_2core("vmov s30, s31, r9, r1", s30, s31, r9, r1, 0xaa2e2acc, 0x00337); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(NAN), f2u(NAN)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(NAN), f2u(INFINITY)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(NAN), f2u(-INFINITY)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(NAN), f2u(0)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(INFINITY), f2u(NAN)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(INFINITY), f2u(INFINITY)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(INFINITY), f2u(-INFINITY)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(INFINITY), f2u(0)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(-INFINITY), f2u(NAN)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(-INFINITY), f2u(INFINITY)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(-INFINITY), f2u(-INFINITY)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(-INFINITY), f2u(0)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(0), f2u(NAN)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(0), f2u(INFINITY)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(0), f2u(-INFINITY)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(0), f2u(0)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(NAN) + 1, f2u(NAN)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(NAN) + 1, f2u(0)); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(NAN), f2u(NAN) - 1); TESTINSN_vmov_2single_2core("vmov s20, s21, r10, r9", s20, s21, r10, r9, f2u(0), f2u(NAN) - 1); TESTINSN_vmov_2core_2single("vmov r12, r9, s12, s13", r12, r9, s12, s13, 0x4000aad, 0xaffff); TESTINSN_vmov_2core_2single("vmov r0, r9, s12, s13", r0, r9, s12, s13, 0x40ee56d, 0x123ff); TESTINSN_vmov_2core_2single("vmov r12, r9, s12, s13", r12, r9, s12, s13, 0x4000aad, 0xaffff); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(NAN), f2u(NAN)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(NAN), f2u(INFINITY)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(NAN), f2u(-INFINITY)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(NAN), f2u(0)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(INFINITY), f2u(NAN)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(INFINITY), f2u(INFINITY)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(INFINITY), f2u(-INFINITY)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(INFINITY), f2u(0)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(-INFINITY), f2u(NAN)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(-INFINITY), f2u(INFINITY)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(-INFINITY), f2u(-INFINITY)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(-INFINITY), f2u(0)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(0), f2u(NAN)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(0), f2u(INFINITY)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(0), f2u(-INFINITY)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(0), f2u(0)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(NAN) + 1, f2u(NAN)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(NAN) + 1, f2u(0)); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(NAN), f2u(NAN) - 1); TESTINSN_vmov_2core_2single("vmov r10, r9, s20, s21", r10, r9, s20, s21, f2u(0), f2u(NAN) - 1); printf("----- VMOV (ARM two core registers and double register) -----\n"); TESTINSN_vmov_double_2core("vmov d3, r6, r9", d3, r6, r9, 0x43252acc, 0x45bbd); TESTINSN_vmov_double_2core("vmov d4, r10, r2", d4, r10, r2, 0x1243b4, 0x237ffb); TESTINSN_vmov_double_2core("vmov d21, r1, r6", d21, r1, r6, 0x30cc4, 0x314c043); TESTINSN_vmov_double_2core("vmov d30, r9, r9", d30, r9, r9, 0x08ddf, 0x87bbca); TESTINSN_vmov_double_2core("vmov d29, r3, r5", d29, r3, r5, 0xaaa0, 0xbbb1); TESTINSN_vmov_double_2core("vmov d16, r8, r8", d16, r8, r8, 0xaa455bb, 0x13434); TESTINSN_vmov_double_2core("vmov d17, r12, r9", d17, r12, r9, 0x004003, 0x452bbc1); TESTINSN_vmov_double_2core("vmov d9, r9, r0", d9, r9, r0, 0x134c, 0x41ffb6); TESTINSN_vmov_double_2core("vmov d7, r0, r6", d7, r0, r6, 0x35425dcc, 0x0876c43); TESTINSN_vmov_double_2core("vmov d13, r3, r9", d13, r3, r9, f2u0(NAN), f2u1(NAN)); TESTINSN_vmov_double_2core("vmov d19, r6, r5", d19, r6, r5, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_vmov_double_2core("vmov d0, r2, r6", d0, r2, r6, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_vmov_2core_double("vmov r3, r6, d9", r3, r6, d9, 0x43252acc, 0x45bbd); TESTINSN_vmov_2core_double("vmov r4, r10, d2", r4, r10, d2, 0x1243b4, 0x237ffb); TESTINSN_vmov_2core_double("vmov r2, r1, d6", r2, r1, d6, 0x30cc4, 0x314c043); TESTINSN_vmov_2core_double("vmov r0, r9, d11", r0, r9, d11, 0x08ddf, 0x87bbca); TESTINSN_vmov_2core_double("vmov r9, r3, d5", r9, r3, d5, 0xaaa0, 0xbbb1); TESTINSN_vmov_2core_double("vmov r10, r8, d8", r10, r8, d8, 0xaa455bb, 0x13434); TESTINSN_vmov_2core_double("vmov r9, r12, d11", r9, r12, d11, 0x004003, 0x452bbc1); // ARM ARM says this is UNDEFINED, hence we don't decode it //TESTINSN_vmov_2core_double("vmov r9, r9, d0", r9, r9, d0, 0x134c, 0x41ffb6); TESTINSN_vmov_2core_double("vmov r6, r0, d7", r6, r0, d7, 0x35425dcc, 0x0876c43); TESTINSN_vmov_2core_double("vmov r12, r3, d11", r12, r3, d11, f2u0(NAN), f2u1(NAN)); TESTINSN_vmov_2core_double("vmov r1, r6, d5", r1, r6, d5, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_vmov_2core_double("vmov r0, r2, d7", r0, r2, d7, f2u0(-INFINITY), f2u1(-INFINITY)); TESTINSN_vmov_2core_double("vmov r2, r9, d0", r2, r9, d0, f2u0(INFINITY), f2u1(INFINITY)); TESTINSN_vmov_2core_double("vmov r6, r9, d10", r6, r9, d10, 0x14534c, 0x41ffb6); TESTINSN_vmov_2core_double("vmov r0, r9, d20", r0, r9, d20, f2u0(NAN), f2u1(NAN)); printf("----- VPUSH, VPOP -----\n"); TESTINSN_vpush_vpop_f32(s3, 0x00aaaaaa, s4, 0x00bbbbbb, s5, 0x00cccccc, s0, s1, s2); TESTINSN_vpush_vpop_f32(s1, 0x000134f4, s2, 0x0870ccb3, s3, 0x00aba0f1, s9, s10, s11); TESTINSN_vpush_vpop_f32(s3, 0x00dddddd, s4, 0x00eeeeee, s5, 0x00ffffff, s0, s1, s2); TESTINSN_vpush_vpop_f32(s11, 0x13454c, s12, 0x341, s13, 0xaac45f, s6, s7, s8); TESTINSN_vpush_vpop_f32(s21, 0x0, s22, f2u(NAN), s23, f2u(INFINITY), s23, s24, s25); TESTINSN_vpush_vpop_f32(s12, 0xffffff, s13, 0xf542dd4, s14, f2u(-INFINITY), s11, s12, s13); TESTINSN_vpush_vpop_f32(s25, 0x45cd, s26, 0xa3ccb5, s27, 0xbbcaf, s0, s1, s2); TESTINSN_vpush_vpop_f32(s1, f2u(NAN), s2, 0xaaca3, s3, 0x876008, s6, s7, s8); TESTINSN_vpush_vpop_f32(s9, 0x2f43, s10, f2u(INFINITY), s11, 0x3cc66a, s9, s10, s11); TESTINSN_vpush_vpop_f32(s10, f2u(INFINITY), s11, 0x134cc5, s12, f2u(NAN), s2, s3, s4); TESTINSN_vpush_vpop_f32(s7, 0xcc006d, s8, 0x1308c, s9, 0xabbc45, s21, s22, s23); TESTINSN_vpush_vpop_f32(s19, f2u(-INFINITY), s20, 0x452146, s21, 0x388bbc, s4, s5, s6); TESTINSN_vpush_vpop_f32(s16, 0x542aa, s17, 0xaddcd5, s18, 0x87acc, s18, s19, s20); TESTINSN_vpush_vpop_f32(s22, 0x5ccb708, s23, 0x52345c, s24, 0x98745c, s12, s13, s14); TESTINSN_vpush_vpop_f32(s24, 0x99234f, s25, 0x1aac, s26, 0x3746c, s28, s29, s30); TESTINSN_vpush_vpop_f32(s13, 0x134ccc, s14, 0x6bb43, s15, 0x834aa, s0, s1, s2); TESTINSN_vpush_vpop_f64(d3, 0x00aaaaaa, 0xaac3, d4, 0x00bbbbbb, 0x34ccb, d0, d1); TESTINSN_vpush_vpop_f64(d1, 0x000134f4, 0x341531, d2, 0x0870ccb3, 0x4576bbc, d9, d10); TESTINSN_vpush_vpop_f64(d3, 0x00dddddd, 0x13451cc, d4, 0x00eeeeee, 0x123ddc8, d0, d1); TESTINSN_vpush_vpop_f64(d11, 0x13454c, 0x541bbc3, d12, 0x341, 0xccb5, d6, d7); TESTINSN_vpush_vpop_f64(d21, 0x0, 0x123c33, d22, f2u0(NAN), f2u1(NAN), d23, d24); TESTINSN_vpush_vpop_f64(d12, 0xffffff, 0x1940c, d13, 0xf542dd4, 0x788ffc, d11, d12); TESTINSN_vpush_vpop_f64(d25, 0x45cd, 0x1309c, d26, 0xa3ccb5, 0x4588b, d0, d1); TESTINSN_vpush_vpop_f64(d1, f2u0(NAN), f2u1(NAN), d2, 0xaaca3, 0x1120a, d6, d7); TESTINSN_vpush_vpop_f64(d9, 0x2f43, 0x19ff9, d10, f2u0(INFINITY), f2u1(INFINITY), d9, d10); TESTINSN_vpush_vpop_f64(d10, f2u0(INFINITY), f2u1(INFINITY), d11, 0x134cc5, 0x78cbbd, d2, d3); TESTINSN_vpush_vpop_f64(d7, 0xcc006d, 0x28354, d8, 0x1308c, 0x1993bc, d21, d22); TESTINSN_vpush_vpop_f64(d19, f2u0(-INFINITY), f2u1(-INFINITY), d20, 0x452146, 0x138476c, d4, d5); TESTINSN_vpush_vpop_f64(d16, 0x542aa, 0x12dd4, d17, 0xaddcd5, 0x399cb, d18, d19); TESTINSN_vpush_vpop_f64(d22, 0x5ccb708, 0x8009c, d23, 0x52345c, 0x29902c, d12, d13); TESTINSN_vpush_vpop_f64(d24, 0x99234f, 0x3457ff, d25, 0x1aac, 0x1002cba, d28, d29); TESTINSN_vpush_vpop_f64(d13, 0x134ccc, 0xfaa309, d14, 0x6bb43, 0x199cb, d0, d1); return 0; }