// This program is designed to test some arm64-specific things, such as the // calling convention, but should give the same results on any architecture. #include #include #include struct s1 { char x[1]; } s1 = { "0" }; struct s2 { char x[2]; } s2 = { "12" }; struct s3 { char x[3]; } s3 = { "345" }; struct s4 { char x[4]; } s4 = { "6789" }; struct s5 { char x[5]; } s5 = { "abcde" }; struct s6 { char x[6]; } s6 = { "fghijk" }; struct s7 { char x[7]; } s7 = { "lmnopqr" }; struct s8 { char x[8]; } s8 = { "stuvwxyz" }; struct s9 { char x[9]; } s9 = { "ABCDEFGHI" }; struct s10 { char x[10]; } s10 = { "JKLMNOPQRS" }; struct s11 { char x[11]; } s11 = { "TUVWXYZ0123" }; struct s12 { char x[12]; } s12 = { "456789abcdef" }; struct s13 { char x[13]; } s13 = { "ghijklmnopqrs" }; struct s14 { char x[14]; } s14 = { "tuvwxyzABCDEFG" }; struct s15 { char x[15]; } s15 = { "HIJKLMNOPQRSTUV" }; struct s16 { char x[16]; } s16 = { "WXYZ0123456789ab" }; struct s17 { char x[17]; } s17 = { "cdefghijklmnopqrs" }; struct hfa11 { float a; } hfa11 = { 11.1 }; struct hfa12 { float a, b; } hfa12 = { 12.1, 12.2 }; struct hfa13 { float a, b, c; } hfa13 = { 13.1, 13.2, 13.3 }; struct hfa14 { float a, b, c, d; } hfa14 = { 14.1, 14.2, 14.3, 14.4 }; struct hfa21 { double a; } hfa21 = { 21.1 }; struct hfa22 { double a, b; } hfa22 = { 22.1, 22.2 }; struct hfa23 { double a, b, c; } hfa23 = { 23.1, 23.2, 23.3 }; struct hfa24 { double a, b, c, d; } hfa24 = { 24.1, 24.2, 24.3, 24.4 }; struct hfa31 { long double a; } hfa31 = { 31.1 }; struct hfa32 { long double a, b; } hfa32 = { 32.1, 32.2 }; struct hfa33 { long double a, b, c; } hfa33 = { 33.1, 33.2, 33.3 }; struct hfa34 { long double a, b, c, d; } hfa34 = { 34.1, 34.2, 34.3, 34.4 }; void fa_s1(struct s1 a) { printf("%.1s\n", a.x); } void fa_s2(struct s2 a) { printf("%.2s\n", a.x); } void fa_s3(struct s3 a) { printf("%.3s\n", a.x); } void fa_s4(struct s4 a) { printf("%.4s\n", a.x); } void fa_s5(struct s5 a) { printf("%.5s\n", a.x); } void fa_s6(struct s6 a) { printf("%.6s\n", a.x); } void fa_s7(struct s7 a) { printf("%.7s\n", a.x); } void fa_s8(struct s8 a) { printf("%.8s\n", a.x); } void fa_s9(struct s9 a) { printf("%.9s\n", a.x); } void fa_s10(struct s10 a) { printf("%.10s\n", a.x); } void fa_s11(struct s11 a) { printf("%.11s\n", a.x); } void fa_s12(struct s12 a) { printf("%.12s\n", a.x); } void fa_s13(struct s13 a) { printf("%.13s\n", a.x); } void fa_s14(struct s14 a) { printf("%.14s\n", a.x); } void fa_s15(struct s15 a) { printf("%.15s\n", a.x); } void fa_s16(struct s16 a) { printf("%.16s\n", a.x); } void fa_s17(struct s17 a) { printf("%.17s\n", a.x); } void fa_hfa11(struct hfa11 a) { printf("%.1f\n", a.a); } void fa_hfa12(struct hfa12 a) { printf("%.1f %.1f\n", a.a, a.a); } void fa_hfa13(struct hfa13 a) { printf("%.1f %.1f %.1f\n", a.a, a.b, a.c); } void fa_hfa14(struct hfa14 a) { printf("%.1f %.1f %.1f %.1f\n", a.a, a.b, a.c, a.d); } void fa_hfa21(struct hfa21 a) { printf("%.1f\n", a.a); } void fa_hfa22(struct hfa22 a) { printf("%.1f %.1f\n", a.a, a.a); } void fa_hfa23(struct hfa23 a) { printf("%.1f %.1f %.1f\n", a.a, a.b, a.c); } void fa_hfa24(struct hfa24 a) { printf("%.1f %.1f %.1f %.1f\n", a.a, a.b, a.c, a.d); } void fa_hfa31(struct hfa31 a) { printf("%.1Lf\n", a.a); } void fa_hfa32(struct hfa32 a) { printf("%.1Lf %.1Lf\n", a.a, a.a); } void fa_hfa33(struct hfa33 a) { printf("%.1Lf %.1Lf %.1Lf\n", a.a, a.b, a.c); } void fa_hfa34(struct hfa34 a) { printf("%.1Lf %.1Lf %.1Lf %.1Lf\n", a.a, a.b, a.c, a.d); } void fa1(struct s8 a, struct s9 b, struct s10 c, struct s11 d, struct s12 e, struct s13 f) { printf("%.3s %.3s %.3s %.3s %.3s %.3s\n", a.x, b.x, c.x, d.x, e.x, f.x); } void fa2(struct s9 a, struct s10 b, struct s11 c, struct s12 d, struct s13 e, struct s14 f) { printf("%.3s %.3s %.3s %.3s %.3s %.3s\n", a.x, b.x, c.x, d.x, e.x, f.x); } void fa3(struct hfa14 a, struct hfa23 b, struct hfa32 c) { printf("%.1f %.1f %.1f %.1f %.1Lf %.1Lf\n", a.a, a.d, b.a, b.c, c.a, c.b); } void fa4(struct s1 a, struct hfa14 b, struct s2 c, struct hfa24 d, struct s3 e, struct hfa34 f) { printf("%.1s %.1f %.1f %.2s %.1f %.1f %.3s %.1Lf %.1Lf\n", a.x, b.a, b.d, c.x, d.a, d.d, e.x, f.a, f.d); } void arg(void) { printf("Arguments:\n"); fa_s1(s1); fa_s2(s2); fa_s3(s3); fa_s4(s4); fa_s5(s5); fa_s6(s6); fa_s7(s7); fa_s8(s8); fa_s9(s9); fa_s10(s10); fa_s11(s11); fa_s12(s12); fa_s13(s13); fa_s14(s14); fa_s15(s15); fa_s16(s16); fa_s17(s17); fa_hfa11(hfa11); fa_hfa12(hfa12); fa_hfa13(hfa13); fa_hfa14(hfa14); fa_hfa21(hfa21); fa_hfa22(hfa22); fa_hfa23(hfa23); fa_hfa24(hfa24); fa_hfa31(hfa31); fa_hfa32(hfa32); fa_hfa33(hfa33); fa_hfa34(hfa34); fa1(s8, s9, s10, s11, s12, s13); fa2(s9, s10, s11, s12, s13, s14); fa3(hfa14, hfa23, hfa32); fa4(s1, hfa14, s2, hfa24, s3, hfa34); } struct s1 fr_s1(void) { return s1; } struct s2 fr_s2(void) { return s2; } struct s3 fr_s3(void) { return s3; } struct s4 fr_s4(void) { return s4; } struct s5 fr_s5(void) { return s5; } struct s6 fr_s6(void) { return s6; } struct s7 fr_s7(void) { return s7; } struct s8 fr_s8(void) { return s8; } struct s9 fr_s9(void) { return s9; } struct s10 fr_s10(void) { return s10; } struct s11 fr_s11(void) { return s11; } struct s12 fr_s12(void) { return s12; } struct s13 fr_s13(void) { return s13; } struct s14 fr_s14(void) { return s14; } struct s15 fr_s15(void) { return s15; } struct s16 fr_s16(void) { return s16; } struct s17 fr_s17(void) { return s17; } struct hfa11 fr_hfa11(void) { return hfa11; } struct hfa12 fr_hfa12(void) { return hfa12; } struct hfa13 fr_hfa13(void) { return hfa13; } struct hfa14 fr_hfa14(void) { return hfa14; } struct hfa21 fr_hfa21(void) { return hfa21; } struct hfa22 fr_hfa22(void) { return hfa22; } struct hfa23 fr_hfa23(void) { return hfa23; } struct hfa24 fr_hfa24(void) { return hfa24; } struct hfa31 fr_hfa31(void) { return hfa31; } struct hfa32 fr_hfa32(void) { return hfa32; } struct hfa33 fr_hfa33(void) { return hfa33; } struct hfa34 fr_hfa34(void) { return hfa34; } void ret(void) { struct s1 t1 = fr_s1(); struct s2 t2 = fr_s2(); struct s3 t3 = fr_s3(); struct s4 t4 = fr_s4(); struct s5 t5 = fr_s5(); struct s6 t6 = fr_s6(); struct s7 t7 = fr_s7(); struct s8 t8 = fr_s8(); struct s9 t9 = fr_s9(); struct s10 t10 = fr_s10(); struct s11 t11 = fr_s11(); struct s12 t12 = fr_s12(); struct s13 t13 = fr_s13(); struct s14 t14 = fr_s14(); struct s15 t15 = fr_s15(); struct s16 t16 = fr_s16(); struct s17 t17 = fr_s17(); printf("Return values:\n"); printf("%.1s\n", t1.x); printf("%.2s\n", t2.x); printf("%.3s\n", t3.x); printf("%.4s\n", t4.x); printf("%.5s\n", t5.x); printf("%.6s\n", t6.x); printf("%.7s\n", t7.x); printf("%.8s\n", t8.x); printf("%.9s\n", t9.x); printf("%.10s\n", t10.x); printf("%.11s\n", t11.x); printf("%.12s\n", t12.x); printf("%.13s\n", t13.x); printf("%.14s\n", t14.x); printf("%.15s\n", t15.x); printf("%.16s\n", t16.x); printf("%.17s\n", t17.x); printf("%.1f\n", fr_hfa11().a); printf("%.1f %.1f\n", fr_hfa12().a, fr_hfa12().b); printf("%.1f %.1f\n", fr_hfa13().a, fr_hfa13().c); printf("%.1f %.1f\n", fr_hfa14().a, fr_hfa14().d); printf("%.1f\n", fr_hfa21().a); printf("%.1f %.1f\n", fr_hfa22().a, fr_hfa22().b); printf("%.1f %.1f\n", fr_hfa23().a, fr_hfa23().c); printf("%.1f %.1f\n", fr_hfa24().a, fr_hfa24().d); printf("%.1Lf\n", fr_hfa31().a); printf("%.1Lf %.1Lf\n", fr_hfa32().a, fr_hfa32().b); printf("%.1Lf %.1Lf\n", fr_hfa33().a, fr_hfa33().c); printf("%.1Lf %.1Lf\n", fr_hfa34().a, fr_hfa34().d); } int match(const char **s, const char *f) { const char *p = *s; for (p = *s; *f && *f == *p; f++, p++) ; if (!*f) { *s = p - 1; return 1; } return 0; } void myprintf(const char *format, ...) { const char *s; va_list ap; va_start(ap, format); for (s = format; *s; s++) { if (match(&s, "%7s")) { struct s7 t7 = va_arg(ap, struct s7); printf("%.7s", t7.x); } else if (match(&s, "%9s")) { struct s9 t9 = va_arg(ap, struct s9); printf("%.9s", t9.x); } else if (match(&s, "%hfa11")) { struct hfa11 x = va_arg(ap, struct hfa11); printf("%.1f,%.1f", x.a, x.a); } else if (match(&s, "%hfa12")) { struct hfa12 x = va_arg(ap, struct hfa12); printf("%.1f,%.1f", x.a, x.b); } else if (match(&s, "%hfa13")) { struct hfa13 x = va_arg(ap, struct hfa13); printf("%.1f,%.1f", x.a, x.c); } else if (match(&s, "%hfa14")) { struct hfa14 x = va_arg(ap, struct hfa14); printf("%.1f,%.1f", x.a, x.d); } else if (match(&s, "%hfa21")) { struct hfa21 x = va_arg(ap, struct hfa21); printf("%.1f,%.1f", x.a, x.a); } else if (match(&s, "%hfa22")) { struct hfa22 x = va_arg(ap, struct hfa22); printf("%.1f,%.1f", x.a, x.b); } else if (match(&s, "%hfa23")) { struct hfa23 x = va_arg(ap, struct hfa23); printf("%.1f,%.1f", x.a, x.c); } else if (match(&s, "%hfa24")) { struct hfa24 x = va_arg(ap, struct hfa24); printf("%.1f,%.1f", x.a, x.d); } else if (match(&s, "%hfa31")) { struct hfa31 x = va_arg(ap, struct hfa31); printf("%.1Lf,%.1Lf", x.a, x.a); } else if (match(&s, "%hfa32")) { struct hfa32 x = va_arg(ap, struct hfa32); printf("%.1Lf,%.1Lf", x.a, x.b); } else if (match(&s, "%hfa33")) { struct hfa33 x = va_arg(ap, struct hfa33); printf("%.1Lf,%.1Lf", x.a, x.c); } else if (match(&s, "%hfa34")) { struct hfa34 x = va_arg(ap, struct hfa34); printf("%.1Lf,%.1Lf", x.a, x.d); } else putchar(*s); } putchar('\n'); } void stdarg(void) { printf("stdarg:\n"); myprintf("%9s %9s %9s %9s %9s %9s", s9, s9, s9, s9, s9, s9); myprintf("%7s %9s %9s %9s %9s %9s", s7, s9, s9, s9, s9, s9); myprintf("HFA long double:"); myprintf("%hfa34 %hfa34 %hfa34 %hfa34", hfa34, hfa34, hfa34, hfa34); myprintf("%hfa33 %hfa34 %hfa34 %hfa34", hfa33, hfa34, hfa34, hfa34); myprintf("%hfa32 %hfa34 %hfa34 %hfa34", hfa32, hfa34, hfa34, hfa34); myprintf("%hfa31 %hfa34 %hfa34 %hfa34", hfa31, hfa34, hfa34, hfa34); myprintf("%hfa32 %hfa33 %hfa33 %hfa33 %hfa33", hfa32, hfa33, hfa33, hfa33, hfa33); myprintf("%hfa31 %hfa33 %hfa33 %hfa33 %hfa33", hfa31, hfa33, hfa33, hfa33, hfa33); myprintf("%hfa33 %hfa33 %hfa33 %hfa33", hfa33, hfa33, hfa33, hfa33); myprintf("%hfa34 %hfa32 %hfa32 %hfa32 %hfa32", hfa34, hfa32, hfa32, hfa32, hfa32); myprintf("%hfa33 %hfa32 %hfa32 %hfa32 %hfa32", hfa33, hfa32, hfa32, hfa32, hfa32); myprintf("%hfa34 %hfa32 %hfa31 %hfa31 %hfa31 %hfa31", hfa34, hfa32, hfa31, hfa31, hfa31, hfa31); myprintf("HFA double:"); myprintf("%hfa24 %hfa24 %hfa24 %hfa24", hfa24, hfa24, hfa24, hfa24); myprintf("%hfa23 %hfa24 %hfa24 %hfa24", hfa23, hfa24, hfa24, hfa24); myprintf("%hfa22 %hfa24 %hfa24 %hfa24", hfa22, hfa24, hfa24, hfa24); myprintf("%hfa21 %hfa24 %hfa24 %hfa24", hfa21, hfa24, hfa24, hfa24); myprintf("%hfa22 %hfa23 %hfa23 %hfa23 %hfa23", hfa22, hfa23, hfa23, hfa23, hfa23); myprintf("%hfa21 %hfa23 %hfa23 %hfa23 %hfa23", hfa21, hfa23, hfa23, hfa23, hfa23); myprintf("%hfa23 %hfa23 %hfa23 %hfa23", hfa23, hfa23, hfa23, hfa23); myprintf("%hfa24 %hfa22 %hfa22 %hfa22 %hfa22", hfa24, hfa22, hfa22, hfa22, hfa22); myprintf("%hfa23 %hfa22 %hfa22 %hfa22 %hfa22", hfa23, hfa22, hfa22, hfa22, hfa22); myprintf("%hfa24 %hfa22 %hfa21 %hfa21 %hfa21 %hfa21", hfa24, hfa22, hfa21, hfa21, hfa21, hfa21); myprintf("HFA float:"); myprintf("%hfa14 %hfa14 %hfa14 %hfa14", hfa14, hfa14, hfa14, hfa14); myprintf("%hfa13 %hfa14 %hfa14 %hfa14", hfa13, hfa14, hfa14, hfa14); myprintf("%hfa12 %hfa14 %hfa14 %hfa14", hfa12, hfa14, hfa14, hfa14); myprintf("%hfa11 %hfa14 %hfa14 %hfa14", hfa11, hfa14, hfa14, hfa14); myprintf("%hfa12 %hfa13 %hfa13 %hfa13 %hfa13", hfa12, hfa13, hfa13, hfa13, hfa13); myprintf("%hfa11 %hfa13 %hfa13 %hfa13 %hfa13", hfa11, hfa13, hfa13, hfa13, hfa13); myprintf("%hfa13 %hfa13 %hfa13 %hfa13", hfa13, hfa13, hfa13, hfa13); myprintf("%hfa14 %hfa12 %hfa12 %hfa12 %hfa12", hfa14, hfa12, hfa12, hfa12, hfa12); myprintf("%hfa13 %hfa12 %hfa12 %hfa12 %hfa12", hfa13, hfa12, hfa12, hfa12, hfa12); myprintf("%hfa14 %hfa12 %hfa11 %hfa11 %hfa11 %hfa11", hfa14, hfa12, hfa11, hfa11, hfa11, hfa11); } void pll(unsigned long long x) { printf("%llx\n", x); } void movi(void) { printf("MOVI:\n"); pll(0); pll(0xabcd); pll(0xabcd0000); pll(0xabcd00000000); pll(0xabcd000000000000); pll(0xffffabcd); pll(0xabcdffff); pll(0xffffffffffffabcd); pll(0xffffffffabcdffff); pll(0xffffabcdffffffff); pll(0xabcdffffffffffff); pll(0xaaaaaaaa); pll(0x5555555555555555); pll(0x77777777); pll(0x3333333333333333); pll(0xf8f8f8f8); pll(0x1e1e1e1e1e1e1e1e); pll(0x3f803f80); pll(0x01ff01ff01ff01ff); pll(0x007fffc0); pll(0x03fff80003fff800); pll(0x0007fffffffffe00); pll(0xabcd1234); pll(0xabcd00001234); pll(0xabcd000000001234); pll(0xabcd12340000); pll(0xabcd000012340000); pll(0xabcd123400000000); pll(0xffffffffabcd1234); pll(0xffffabcdffff1234); pll(0xabcdffffffff1234); pll(0xffffabcd1234ffff); pll(0xabcdffff1234ffff); pll(0xabcd1234ffffffff); pll(0xffffef0123456789); pll(0xabcdef012345ffff); pll(0xabcdef0123456789); } static uint32_t addip0(uint32_t x) { return x + 0; } static uint64_t sublp0(uint64_t x) { return x - 0; } static uint32_t addip123(uint32_t x) { return x + 123; } static uint64_t addlm123(uint64_t x) { return x + -123; } static uint64_t sublp4095(uint64_t x) { return x - 4095; } static uint32_t subim503808(uint32_t x) { return x - -503808; } static uint64_t addp12345(uint64_t x) { return x + 12345; } static uint32_t subp12345(uint32_t x) { return x - 12345; } static uint32_t mvni(uint32_t x) { return 0xffffffff - x; } static uint64_t negl(uint64_t x) { return 0 - x; } static uint32_t rsbi123(uint32_t x) { return 123 - x; } static uint64_t rsbl123(uint64_t x) { return 123 - x; } static uint32_t andi0(uint32_t x) { return x & 0; } static uint64_t andlm1(uint64_t x) { return x & -1; } static uint64_t orrl0(uint64_t x) { return x | 0; } static uint32_t orrim1(uint32_t x) { return x | -1; } static uint32_t eori0(uint32_t x) { return x ^ 0; } static uint64_t eorlm1(uint64_t x) { return x ^ -1; } static uint32_t and0xf0(uint32_t x) { return x & 0xf0; } static uint64_t orr0xf0(uint64_t x) { return x | 0xf0; } static uint64_t eor0xf0(uint64_t x) { return x ^ 0xf0; } static uint32_t lsli0(uint32_t x) { return x << 0; } static uint32_t lsri0(uint32_t x) { return x >> 0; } static int64_t asrl0(int64_t x) { return x >> 0; } static uint32_t lsli1(uint32_t x) { return x << 1; } static uint32_t lsli31(uint32_t x) { return x << 31; } static uint64_t lsll1(uint64_t x) { return x << 1; } static uint64_t lsll63(uint64_t x) { return x << 63; } static uint32_t lsri1(uint32_t x) { return x >> 1; } static uint32_t lsri31(uint32_t x) { return x >> 31; } static uint64_t lsrl1(uint64_t x) { return x >> 1; } static uint64_t lsrl63(uint64_t x) { return x >> 63; } static int32_t asri1(int32_t x) { return x >> 1; } static int32_t asri31(int32_t x) { return x >> 31; } static int64_t asrl1(int64_t x) { return x >> 1; } static int64_t asrl63(int64_t x) { return x >> 63; } void opi(void) { int x = 1000; pll(addip0(x)); pll(sublp0(x)); pll(addip123(x)); pll(addlm123(x)); pll(sublp4095(x)); pll(subim503808(x)); pll(addp12345(x)); pll(subp12345(x)); pll(mvni(x)); pll(negl(x)); pll(rsbi123(x)); pll(rsbl123(x)); pll(andi0(x)); pll(andlm1(x)); pll(orrl0(x)); pll(orrim1(x)); pll(eori0(x)); pll(eorlm1(x)); pll(and0xf0(x)); pll(orr0xf0(x)); pll(eor0xf0(x)); pll(lsli0(x)); pll(lsri0(x)); pll(asrl0(x)); pll(lsli1(x)); pll(lsli31(x)); pll(lsll1(x)); pll(lsll63(x)); pll(lsri1(x)); pll(lsri31(x)); pll(lsrl1(x)); pll(lsrl63(x)); pll(asri1(x)); pll(asri31(x)); pll(asrl1(x)); pll(asrl63(x)); } void pcs(void) { arg(); ret(); stdarg(); movi(); opi(); } int main() { pcs(); return 0; }