/******************************************************************************/ /* (c) 2020 Qualcomm Innovation Center, Inc. All rights reserved. */ /* */ /******************************************************************************/ #ifndef HEXAGON_TYPES_H #define HEXAGON_TYPES_H #include /* Hexagon names */ #define HEXAGON_Vect HEXAGON_Vect64 #define HEXAGON_V_GET_D HEXAGON_V64_GET_D #define HEXAGON_V_GET_UD HEXAGON_V64_GET_UD #define HEXAGON_V_GET_W0 HEXAGON_V64_GET_W0 #define HEXAGON_V_GET_W1 HEXAGON_V64_GET_W1 #define HEXAGON_V_GET_UW0 HEXAGON_V64_GET_UW0 #define HEXAGON_V_GET_UW1 HEXAGON_V64_GET_UW1 #define HEXAGON_V_GET_H0 HEXAGON_V64_GET_H0 #define HEXAGON_V_GET_H1 HEXAGON_V64_GET_H1 #define HEXAGON_V_GET_H2 HEXAGON_V64_GET_H2 #define HEXAGON_V_GET_H3 HEXAGON_V64_GET_H3 #define HEXAGON_V_GET_UH0 HEXAGON_V64_GET_UH0 #define HEXAGON_V_GET_UH1 HEXAGON_V64_GET_UH1 #define HEXAGON_V_GET_UH2 HEXAGON_V64_GET_UH2 #define HEXAGON_V_GET_UH3 HEXAGON_V64_GET_UH3 #define HEXAGON_V_GET_B0 HEXAGON_V64_GET_B0 #define HEXAGON_V_GET_B1 HEXAGON_V64_GET_B1 #define HEXAGON_V_GET_B2 HEXAGON_V64_GET_B2 #define HEXAGON_V_GET_B3 HEXAGON_V64_GET_B3 #define HEXAGON_V_GET_B4 HEXAGON_V64_GET_B4 #define HEXAGON_V_GET_B5 HEXAGON_V64_GET_B5 #define HEXAGON_V_GET_B6 HEXAGON_V64_GET_B6 #define HEXAGON_V_GET_B7 HEXAGON_V64_GET_B7 #define HEXAGON_V_GET_UB0 HEXAGON_V64_GET_UB0 #define HEXAGON_V_GET_UB1 HEXAGON_V64_GET_UB1 #define HEXAGON_V_GET_UB2 HEXAGON_V64_GET_UB2 #define HEXAGON_V_GET_UB3 HEXAGON_V64_GET_UB3 #define HEXAGON_V_GET_UB4 HEXAGON_V64_GET_UB4 #define HEXAGON_V_GET_UB5 HEXAGON_V64_GET_UB5 #define HEXAGON_V_GET_UB6 HEXAGON_V64_GET_UB6 #define HEXAGON_V_GET_UB7 HEXAGON_V64_GET_UB7 #define HEXAGON_V_PUT_D HEXAGON_V64_PUT_D #define HEXAGON_V_PUT_W0 HEXAGON_V64_PUT_W0 #define HEXAGON_V_PUT_W1 HEXAGON_V64_PUT_W1 #define HEXAGON_V_PUT_H0 HEXAGON_V64_PUT_H0 #define HEXAGON_V_PUT_H1 HEXAGON_V64_PUT_H1 #define HEXAGON_V_PUT_H2 HEXAGON_V64_PUT_H2 #define HEXAGON_V_PUT_H3 HEXAGON_V64_PUT_H3 #define HEXAGON_V_PUT_B0 HEXAGON_V64_PUT_B0 #define HEXAGON_V_PUT_B1 HEXAGON_V64_PUT_B1 #define HEXAGON_V_PUT_B2 HEXAGON_V64_PUT_B2 #define HEXAGON_V_PUT_B3 HEXAGON_V64_PUT_B3 #define HEXAGON_V_PUT_B4 HEXAGON_V64_PUT_B4 #define HEXAGON_V_PUT_B5 HEXAGON_V64_PUT_B5 #define HEXAGON_V_PUT_B6 HEXAGON_V64_PUT_B6 #define HEXAGON_V_PUT_B7 HEXAGON_V64_PUT_B7 #define HEXAGON_V_CREATE_D HEXAGON_V64_CREATE_D #define HEXAGON_V_CREATE_W HEXAGON_V64_CREATE_W #define HEXAGON_V_CREATE_H HEXAGON_V64_CREATE_H #define HEXAGON_V_CREATE_B HEXAGON_V64_CREATE_B #ifdef __cplusplus #define HEXAGON_VectC HEXAGON_Vect64C #endif /* __cplusplus */ /* 64 Bit Vectors */ typedef long long __attribute__((__may_alias__)) HEXAGON_Vect64; /* Extract doubleword macros */ #define HEXAGON_V64_GET_D(v) (v) #define HEXAGON_V64_GET_UD(v) ((unsigned long long)(v)) /* Extract word macros */ #define HEXAGON_V64_GET_W0(v) \ __extension__({ \ union { \ long long d; \ int w[2]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.w[0]; \ }) #define HEXAGON_V64_GET_W1(v) \ __extension__({ \ union { \ long long d; \ int w[2]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.w[1]; \ }) #define HEXAGON_V64_GET_UW0(v) \ __extension__({ \ union { \ long long d; \ unsigned int uw[2]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.uw[0]; \ }) #define HEXAGON_V64_GET_UW1(v) \ __extension__({ \ union { \ long long d; \ unsigned int uw[2]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.uw[1]; \ }) /* Extract half word macros */ #define HEXAGON_V64_GET_H0(v) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.h[0]; \ }) #define HEXAGON_V64_GET_H1(v) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.h[1]; \ }) #define HEXAGON_V64_GET_H2(v) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.h[2]; \ }) #define HEXAGON_V64_GET_H3(v) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.h[3]; \ }) #define HEXAGON_V64_GET_UH0(v) \ __extension__({ \ union { \ long long d; \ unsigned short uh[4]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.uh[0]; \ }) #define HEXAGON_V64_GET_UH1(v) \ __extension__({ \ union { \ long long d; \ unsigned short uh[4]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.uh[1]; \ }) #define HEXAGON_V64_GET_UH2(v) \ __extension__({ \ union { \ long long d; \ unsigned short uh[4]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.uh[2]; \ }) #define HEXAGON_V64_GET_UH3(v) \ __extension__({ \ union { \ long long d; \ unsigned short uh[4]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.uh[3]; \ }) /* Extract byte macros */ #define HEXAGON_V64_GET_B0(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[0]; \ }) #define HEXAGON_V64_GET_B1(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[1]; \ }) #define HEXAGON_V64_GET_B2(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[2]; \ }) #define HEXAGON_V64_GET_B3(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[3]; \ }) #define HEXAGON_V64_GET_B4(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[4]; \ }) #define HEXAGON_V64_GET_B5(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[5]; \ }) #define HEXAGON_V64_GET_B6(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[6]; \ }) #define HEXAGON_V64_GET_B7(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[7]; \ }) #define HEXAGON_V64_GET_UB0(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.ub[0]; \ }) #define HEXAGON_V64_GET_UB1(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.ub[1]; \ }) #define HEXAGON_V64_GET_UB2(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.ub[2]; \ }) #define HEXAGON_V64_GET_UB3(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.ub[3]; \ }) #define HEXAGON_V64_GET_UB4(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.ub[4]; \ }) #define HEXAGON_V64_GET_UB5(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.ub[5]; \ }) #define HEXAGON_V64_GET_UB6(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.ub[6]; \ }) #define HEXAGON_V64_GET_UB7(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.ub[7]; \ }) /* NOTE: All set macros return a HEXAGON_Vect64 type */ /* Set doubleword macro */ #define HEXAGON_V64_PUT_D(v, new) (new) /* Set word macros */ #ifdef __hexagon__ #define HEXAGON_V64_PUT_W0(v, new) \ __extension__({ \ union { \ long long d; \ int w[2]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.w[0] = (new); \ _HEXAGON_V64_internal_union.d; \ }) #define HEXAGON_V64_PUT_W1(v, new) \ __extension__({ \ union { \ long long d; \ int w[2]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.w[1] = (new); \ _HEXAGON_V64_internal_union.d; \ }) #else /* !__hexagon__ */ #define HEXAGON_V64_PUT_W0(v, new) \ (((v) & 0xffffffff00000000LL) | ((HEXAGON_Vect64)((unsigned int)(new)))) #define HEXAGON_V64_PUT_W1(v, new) \ (((v) & 0x00000000ffffffffLL) | (((HEXAGON_Vect64)(new)) << 32LL)) #endif /* !__hexagon__ */ /* Set half word macros */ #ifdef __hexagon__ #define HEXAGON_V64_PUT_H0(v, new) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.h[0] = (new); \ _HEXAGON_V64_internal_union.d; \ }) #define HEXAGON_V64_PUT_H1(v, new) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.h[1] = (new); \ _HEXAGON_V64_internal_union.d; \ }) #define HEXAGON_V64_PUT_H2(v, new) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.h[2] = (new); \ _HEXAGON_V64_internal_union.d; \ }) #define HEXAGON_V64_PUT_H3(v, new) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.h[3] = (new); \ _HEXAGON_V64_internal_union.d; \ }) #else /* !__hexagon__ */ #define HEXAGON_V64_PUT_H0(v, new) \ (((v) & 0xffffffffffff0000LL) | ((HEXAGON_Vect64)((unsigned short)(new)))) #define HEXAGON_V64_PUT_H1(v, new) \ (((v) & 0xffffffff0000ffffLL) | (((HEXAGON_Vect64)((unsigned short)(new))) << 16LL)) #define HEXAGON_V64_PUT_H2(v, new) \ (((v) & 0xffff0000ffffffffLL) | (((HEXAGON_Vect64)((unsigned short)(new))) << 32LL)) #define HEXAGON_V64_PUT_H3(v, new) \ (((v) & 0x0000ffffffffffffLL) | (((HEXAGON_Vect64)(new)) << 48LL)) #endif /* !__hexagon__ */ /* Set byte macros */ #ifdef __hexagon__ #define HEXAGON_V64_PUT_B0(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[0] = (new); \ _HEXAGON_V64_internal_union.d; \ }) #define HEXAGON_V64_PUT_B1(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[1] = (new); \ _HEXAGON_V64_internal_union.d; \ }) #define HEXAGON_V64_PUT_B2(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[2] = (new); \ _HEXAGON_V64_internal_union.d; \ }) #define HEXAGON_V64_PUT_B3(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[3] = (new); \ _HEXAGON_V64_internal_union.d; \ }) #define HEXAGON_V64_PUT_B4(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[4] = (new); \ _HEXAGON_V64_internal_union.d; \ }) #define HEXAGON_V64_PUT_B5(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[5] = (new); \ _HEXAGON_V64_internal_union.d; \ }) #define HEXAGON_V64_PUT_B6(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[6] = (new); \ _HEXAGON_V64_internal_union.d; \ }) #define HEXAGON_V64_PUT_B7(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.d = (v); \ _HEXAGON_V64_internal_union.b[7] = (new); \ _HEXAGON_V64_internal_union.d; \ }) #else /* !__hexagon__ */ #define HEXAGON_V64_PUT_B0(v, new) \ (((v) & 0xffffffffffffff00LL) | ((HEXAGON_Vect64)((unsigned char)(new)))) #define HEXAGON_V64_PUT_B1(v, new) \ (((v) & 0xffffffffffff00ffLL) | (((HEXAGON_Vect64)((unsigned char)(new))) << 8LL)) #define HEXAGON_V64_PUT_B2(v, new) \ (((v) & 0xffffffffff00ffffLL) | (((HEXAGON_Vect64)((unsigned char)(new))) << 16LL)) #define HEXAGON_V64_PUT_B3(v, new) \ (((v) & 0xffffffff00ffffffLL) | (((HEXAGON_Vect64)((unsigned char)(new))) << 24LL)) #define HEXAGON_V64_PUT_B4(v, new) \ (((v) & 0xffffff00ffffffffLL) | (((HEXAGON_Vect64)((unsigned char)(new))) << 32LL)) #define HEXAGON_V64_PUT_B5(v, new) \ (((v) & 0xffff00ffffffffffLL) | (((HEXAGON_Vect64)((unsigned char)(new))) << 40LL)) #define HEXAGON_V64_PUT_B6(v, new) \ (((v) & 0xff00ffffffffffffLL) | (((HEXAGON_Vect64)((unsigned char)(new))) << 48LL)) #define HEXAGON_V64_PUT_B7(v, new) \ (((v) & 0x00ffffffffffffffLL) | (((HEXAGON_Vect64)(new)) << 56LL)) #endif /* !__hexagon__ */ /* NOTE: All create macros return a HEXAGON_Vect64 type */ /* Create from a doubleword */ #define HEXAGON_V64_CREATE_D(d) (d) /* Create from words */ #ifdef __hexagon__ #define HEXAGON_V64_CREATE_W(w1, w0) \ __extension__({ \ union { \ long long d; \ int w[2]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.w[0] = (w0); \ _HEXAGON_V64_internal_union.w[1] = (w1); \ _HEXAGON_V64_internal_union.d; \ }) #else /* !__hexagon__ */ #define HEXAGON_V64_CREATE_W(w1, w0) \ ((((HEXAGON_Vect64)(w1)) << 32LL) | ((HEXAGON_Vect64)((w0) & 0xffffffff))) #endif /* !__hexagon__ */ /* Create from half words */ #ifdef __hexagon__ #define HEXAGON_V64_CREATE_H(h3, h2, h1, h0) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.h[0] = (h0); \ _HEXAGON_V64_internal_union.h[1] = (h1); \ _HEXAGON_V64_internal_union.h[2] = (h2); \ _HEXAGON_V64_internal_union.h[3] = (h3); \ _HEXAGON_V64_internal_union.d; \ }) #else /* !__hexagon__ */ #define HEXAGON_V64_CREATE_H(h3, h2, h1, h0) \ ((((HEXAGON_Vect64)(h3)) << 48LL) | (((HEXAGON_Vect64)((h2) & 0xffff)) << 32LL) | \ (((HEXAGON_Vect64)((h1) & 0xffff)) << 16LL) | ((HEXAGON_Vect64)((h0) & 0xffff))) #endif /* !__hexagon__ */ /* Create from bytes */ #ifdef __hexagon__ #define HEXAGON_V64_CREATE_B(b7, b6, b5, b4, b3, b2, b1, b0) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _HEXAGON_V64_internal_union; \ _HEXAGON_V64_internal_union.b[0] = (b0); \ _HEXAGON_V64_internal_union.b[1] = (b1); \ _HEXAGON_V64_internal_union.b[2] = (b2); \ _HEXAGON_V64_internal_union.b[3] = (b3); \ _HEXAGON_V64_internal_union.b[4] = (b4); \ _HEXAGON_V64_internal_union.b[5] = (b5); \ _HEXAGON_V64_internal_union.b[6] = (b6); \ _HEXAGON_V64_internal_union.b[7] = (b7); \ _HEXAGON_V64_internal_union.d; \ }) #else /* !__hexagon__ */ #define HEXAGON_V64_CREATE_B(b7, b6, b5, b4, b3, b2, b1, b0) \ ((((HEXAGON_Vect64)(b7)) << 56LL) | (((HEXAGON_Vect64)((b6) & 0xff)) << 48LL) | \ (((HEXAGON_Vect64)((b5) & 0xff)) << 40LL) | (((HEXAGON_Vect64)((b4) & 0xff)) << 32LL) | \ (((HEXAGON_Vect64)((b3) & 0xff)) << 24LL) | (((HEXAGON_Vect64)((b2) & 0xff)) << 16LL) | \ (((HEXAGON_Vect64)((b1) & 0xff)) << 8LL) | ((HEXAGON_Vect64)((b0) & 0xff))) #endif /* !__hexagon__ */ #ifdef __cplusplus class HEXAGON_Vect64C { public: // Constructors HEXAGON_Vect64C(long long d = 0) : data(d) {}; HEXAGON_Vect64C(int w1, int w0) : data(HEXAGON_V64_CREATE_W(w1, w0)) {}; HEXAGON_Vect64C(short h3, short h2, short h1, short h0) : data(HEXAGON_V64_CREATE_H(h3, h2, h1, h0)) {}; HEXAGON_Vect64C(signed char b7, signed char b6, signed char b5, signed char b4, signed char b3, signed char b2, signed char b1, signed char b0) : data(HEXAGON_V64_CREATE_B(b7, b6, b5, b4, b3, b2, b1, b0)) {}; HEXAGON_Vect64C(const HEXAGON_Vect64C &v) : data(v.data) {}; HEXAGON_Vect64C &operator=(const HEXAGON_Vect64C &v) { data = v.data; return *this; }; operator long long() { return data; }; // Extract doubleword methods long long D(void) { return HEXAGON_V64_GET_D(data); }; unsigned long long UD(void) { return HEXAGON_V64_GET_UD(data); }; // Extract word methods int W0(void) { return HEXAGON_V64_GET_W0(data); }; int W1(void) { return HEXAGON_V64_GET_W1(data); }; unsigned int UW0(void) { return HEXAGON_V64_GET_UW0(data); }; unsigned int UW1(void) { return HEXAGON_V64_GET_UW1(data); }; // Extract half word methods short H0(void) { return HEXAGON_V64_GET_H0(data); }; short H1(void) { return HEXAGON_V64_GET_H1(data); }; short H2(void) { return HEXAGON_V64_GET_H2(data); }; short H3(void) { return HEXAGON_V64_GET_H3(data); }; unsigned short UH0(void) { return HEXAGON_V64_GET_UH0(data); }; unsigned short UH1(void) { return HEXAGON_V64_GET_UH1(data); }; unsigned short UH2(void) { return HEXAGON_V64_GET_UH2(data); }; unsigned short UH3(void) { return HEXAGON_V64_GET_UH3(data); }; // Extract byte methods signed char B0(void) { return HEXAGON_V64_GET_B0(data); }; signed char B1(void) { return HEXAGON_V64_GET_B1(data); }; signed char B2(void) { return HEXAGON_V64_GET_B2(data); }; signed char B3(void) { return HEXAGON_V64_GET_B3(data); }; signed char B4(void) { return HEXAGON_V64_GET_B4(data); }; signed char B5(void) { return HEXAGON_V64_GET_B5(data); }; signed char B6(void) { return HEXAGON_V64_GET_B6(data); }; signed char B7(void) { return HEXAGON_V64_GET_B7(data); }; unsigned char UB0(void) { return HEXAGON_V64_GET_UB0(data); }; unsigned char UB1(void) { return HEXAGON_V64_GET_UB1(data); }; unsigned char UB2(void) { return HEXAGON_V64_GET_UB2(data); }; unsigned char UB3(void) { return HEXAGON_V64_GET_UB3(data); }; unsigned char UB4(void) { return HEXAGON_V64_GET_UB4(data); }; unsigned char UB5(void) { return HEXAGON_V64_GET_UB5(data); }; unsigned char UB6(void) { return HEXAGON_V64_GET_UB6(data); }; unsigned char UB7(void) { return HEXAGON_V64_GET_UB7(data); }; // NOTE: All set methods return a HEXAGON_Vect64C type // Set doubleword method HEXAGON_Vect64C D(long long d) { return HEXAGON_Vect64C(HEXAGON_V64_PUT_D(data, d)); }; // Set word methods HEXAGON_Vect64C W0(int w) { return HEXAGON_Vect64C(HEXAGON_V64_PUT_W0(data, w)); }; HEXAGON_Vect64C W1(int w) { return HEXAGON_Vect64C(HEXAGON_V64_PUT_W1(data, w)); }; // Set half word methods HEXAGON_Vect64C H0(short h) { return HEXAGON_Vect64C(HEXAGON_V64_PUT_H0(data, h)); }; HEXAGON_Vect64C H1(short h) { return HEXAGON_Vect64C(HEXAGON_V64_PUT_H1(data, h)); }; HEXAGON_Vect64C H2(short h) { return HEXAGON_Vect64C(HEXAGON_V64_PUT_H2(data, h)); }; HEXAGON_Vect64C H3(short h) { return HEXAGON_Vect64C(HEXAGON_V64_PUT_H3(data, h)); }; // Set byte methods HEXAGON_Vect64C B0(signed char b) { return HEXAGON_Vect64C(HEXAGON_V64_PUT_B0(data, b)); }; HEXAGON_Vect64C B1(signed char b) { return HEXAGON_Vect64C(HEXAGON_V64_PUT_B1(data, b)); }; HEXAGON_Vect64C B2(signed char b) { return HEXAGON_Vect64C(HEXAGON_V64_PUT_B2(data, b)); }; HEXAGON_Vect64C B3(signed char b) { return HEXAGON_Vect64C(HEXAGON_V64_PUT_B3(data, b)); }; HEXAGON_Vect64C B4(signed char b) { return HEXAGON_Vect64C(HEXAGON_V64_PUT_B4(data, b)); }; HEXAGON_Vect64C B5(signed char b) { return HEXAGON_Vect64C(HEXAGON_V64_PUT_B5(data, b)); }; HEXAGON_Vect64C B6(signed char b) { return HEXAGON_Vect64C(HEXAGON_V64_PUT_B6(data, b)); }; HEXAGON_Vect64C B7(signed char b) { return HEXAGON_Vect64C(HEXAGON_V64_PUT_B7(data, b)); }; private: long long data; }; #endif /* __cplusplus */ /* 32 Bit Vectors */ typedef int HEXAGON_Vect32; /* Extract word macros */ #define HEXAGON_V32_GET_W(v) (v) #define HEXAGON_V32_GET_UW(v) ((unsigned int)(v)) /* Extract half word macros */ #define HEXAGON_V32_GET_H0(v) \ __extension__({ \ union { \ int w; \ short h[2]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.h[0]; \ }) #define HEXAGON_V32_GET_H1(v) \ __extension__({ \ union { \ int w; \ short h[2]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.h[1]; \ }) #define HEXAGON_V32_GET_UH0(v) \ __extension__({ \ union { \ int w; \ unsigned short uh[2]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.uh[0]; \ }) #define HEXAGON_V32_GET_UH1(v) \ __extension__({ \ union { \ int w; \ unsigned short uh[2]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.uh[1]; \ }) /* Extract byte macros */ #define HEXAGON_V32_GET_B0(v) \ __extension__({ \ union { \ int w; \ signed char b[4]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.b[0]; \ }) #define HEXAGON_V32_GET_B1(v) \ __extension__({ \ union { \ int w; \ signed char b[4]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.b[1]; \ }) #define HEXAGON_V32_GET_B2(v) \ __extension__({ \ union { \ int w; \ signed char b[4]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.b[2]; \ }) #define HEXAGON_V32_GET_B3(v) \ __extension__({ \ union { \ int w; \ signed char b[4]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.b[3]; \ }) #define HEXAGON_V32_GET_UB0(v) \ __extension__({ \ union { \ int w; \ unsigned char ub[4]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.ub[0]; \ }) #define HEXAGON_V32_GET_UB1(v) \ __extension__({ \ union { \ int w; \ unsigned char ub[4]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.ub[1]; \ }) #define HEXAGON_V32_GET_UB2(v) \ __extension__({ \ union { \ int w; \ unsigned char ub[4]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.ub[2]; \ }) #define HEXAGON_V32_GET_UB3(v) \ __extension__({ \ union { \ int w; \ unsigned char ub[4]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.ub[3]; \ }) /* NOTE: All set macros return a HEXAGON_Vect32 type */ /* Set word macro */ #define HEXAGON_V32_PUT_W(v, new) (new) /* Set half word macros */ #ifdef __hexagon__ #define HEXAGON_V32_PUT_H0(v, new) \ __extension__({ \ union { \ int w; \ short h[2]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.h[0] = (new); \ _HEXAGON_V32_internal_union.w; \ }) #define HEXAGON_V32_PUT_H1(v, new) \ __extension__({ \ union { \ int w; \ short h[2]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.h[1] = (new); \ _HEXAGON_V32_internal_union.w; \ }) #else /* !__hexagon__ */ #define HEXAGON_V32_PUT_H0(v, new) \ (((v) & 0xffff0000) | ((HEXAGON_Vect32)((unsigned short)(new)))) #define HEXAGON_V32_PUT_H1(v, new) (((v) & 0x0000ffff) | (((HEXAGON_Vect32)(new)) << 16)) #endif /* !__hexagon__ */ /* Set byte macros */ #ifdef __hexagon__ #define HEXAGON_V32_PUT_B0(v, new) \ __extension__({ \ union { \ int w; \ char b[4]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.b[0] = (new); \ _HEXAGON_V32_internal_union.w; \ }) #define HEXAGON_V32_PUT_B1(v, new) \ __extension__({ \ union { \ int w; \ char b[4]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.b[1] = (new); \ _HEXAGON_V32_internal_union.w; \ }) #define HEXAGON_V32_PUT_B2(v, new) \ __extension__({ \ union { \ int w; \ char b[4]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.b[2] = (new); \ _HEXAGON_V32_internal_union.w; \ }) #define HEXAGON_V32_PUT_B3(v, new) \ __extension__({ \ union { \ int w; \ char b[4]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.w = (v); \ _HEXAGON_V32_internal_union.b[3] = (new); \ _HEXAGON_V32_internal_union.w; \ }) #else /* !__hexagon__ */ #define HEXAGON_V32_PUT_B0(v, new) \ (((v) & 0xffffff00) | ((HEXAGON_Vect32)((unsigned char)(new)))) #define HEXAGON_V32_PUT_B1(v, new) \ (((v) & 0xffff00ff) | (((HEXAGON_Vect32)((unsigned char)(new))) << 8)) #define HEXAGON_V32_PUT_B2(v, new) \ (((v) & 0xff00ffff) | (((HEXAGON_Vect32)((unsigned char)(new))) << 16)) #define HEXAGON_V32_PUT_B3(v, new) (((v) & 0x00ffffff) | (((HEXAGON_Vect32)(new)) << 24)) #endif /* !__hexagon__ */ /* NOTE: All create macros return a HEXAGON_Vect32 type */ /* Create from a word */ #define HEXAGON_V32_CREATE_W(w) (w) /* Create from half words */ #ifdef __hexagon__ #define HEXAGON_V32_CREATE_H(h1, h0) \ __extension__({ \ union { \ long long d; \ short h[2]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.h[0] = (h0); \ _HEXAGON_V32_internal_union.h[1] = (h1); \ _HEXAGON_V32_internal_union.d; \ }) #else /* !__hexagon__ */ #define HEXAGON_V32_CREATE_H(h1, h0) \ ((((HEXAGON_Vect32)(h1)) << 16) | ((HEXAGON_Vect32)((h0) & 0xffff))) #endif /* !__hexagon__ */ /* Create from bytes */ #ifdef __hexagon__ #define HEXAGON_V32_CREATE_B(b3, b2, b1, b0) \ __extension__({ \ union { \ long long d; \ char b[4]; \ } _HEXAGON_V32_internal_union; \ _HEXAGON_V32_internal_union.b[0] = (b0); \ _HEXAGON_V32_internal_union.b[1] = (b1); \ _HEXAGON_V32_internal_union.b[2] = (b2); \ _HEXAGON_V32_internal_union.b[3] = (b3); \ _HEXAGON_V32_internal_union.d; \ }) #else /* !__hexagon__ */ #define HEXAGON_V32_CREATE_B(b3, b2, b1, b0) \ ((((HEXAGON_Vect32)(b3)) << 24) | (((HEXAGON_Vect32)((b2) & 0xff)) << 16) | \ (((HEXAGON_Vect32)((b1) & 0xff)) << 8) | ((HEXAGON_Vect32)((b0) & 0xff))) #endif /* !__hexagon__ */ #ifdef __cplusplus class HEXAGON_Vect32C { public: // Constructors HEXAGON_Vect32C(int w = 0) : data(w) {}; HEXAGON_Vect32C(short h1, short h0) : data(HEXAGON_V32_CREATE_H(h1, h0)) {}; HEXAGON_Vect32C(signed char b3, signed char b2, signed char b1, signed char b0) : data(HEXAGON_V32_CREATE_B(b3, b2, b1, b0)) {}; HEXAGON_Vect32C(const HEXAGON_Vect32C &v) : data(v.data) {}; HEXAGON_Vect32C &operator=(const HEXAGON_Vect32C &v) { data = v.data; return *this; }; operator int() { return data; }; // Extract word methods int W(void) { return HEXAGON_V32_GET_W(data); }; unsigned int UW(void) { return HEXAGON_V32_GET_UW(data); }; // Extract half word methods short H0(void) { return HEXAGON_V32_GET_H0(data); }; short H1(void) { return HEXAGON_V32_GET_H1(data); }; unsigned short UH0(void) { return HEXAGON_V32_GET_UH0(data); }; unsigned short UH1(void) { return HEXAGON_V32_GET_UH1(data); }; // Extract byte methods signed char B0(void) { return HEXAGON_V32_GET_B0(data); }; signed char B1(void) { return HEXAGON_V32_GET_B1(data); }; signed char B2(void) { return HEXAGON_V32_GET_B2(data); }; signed char B3(void) { return HEXAGON_V32_GET_B3(data); }; unsigned char UB0(void) { return HEXAGON_V32_GET_UB0(data); }; unsigned char UB1(void) { return HEXAGON_V32_GET_UB1(data); }; unsigned char UB2(void) { return HEXAGON_V32_GET_UB2(data); }; unsigned char UB3(void) { return HEXAGON_V32_GET_UB3(data); }; // NOTE: All set methods return a HEXAGON_Vect32C type // Set word method HEXAGON_Vect32C W(int w) { return HEXAGON_Vect32C(HEXAGON_V32_PUT_W(data, w)); }; // Set half word methods HEXAGON_Vect32C H0(short h) { return HEXAGON_Vect32C(HEXAGON_V32_PUT_H0(data, h)); }; HEXAGON_Vect32C H1(short h) { return HEXAGON_Vect32C(HEXAGON_V32_PUT_H1(data, h)); }; // Set byte methods HEXAGON_Vect32C B0(signed char b) { return HEXAGON_Vect32C(HEXAGON_V32_PUT_B0(data, b)); }; HEXAGON_Vect32C B1(signed char b) { return HEXAGON_Vect32C(HEXAGON_V32_PUT_B1(data, b)); }; HEXAGON_Vect32C B2(signed char b) { return HEXAGON_Vect32C(HEXAGON_V32_PUT_B2(data, b)); }; HEXAGON_Vect32C B3(signed char b) { return HEXAGON_Vect32C(HEXAGON_V32_PUT_B3(data, b)); }; private: int data; }; #endif /* __cplusplus */ // V65 Vector types #if __HVX_ARCH__ >= 65 #if defined __HVX__ && (__HVX_LENGTH__ == 128) typedef long HEXAGON_VecPred128 __attribute__((__vector_size__(128))) __attribute__((aligned(128))); typedef long HEXAGON_Vect1024 __attribute__((__vector_size__(128))) __attribute__((aligned(128))); typedef long HEXAGON_Vect2048 __attribute__((__vector_size__(256))) __attribute__((aligned(256))); typedef long HEXAGON_UVect1024 __attribute__((__vector_size__(128))) __attribute__((aligned(4))); typedef long HEXAGON_UVect2048 __attribute__((__vector_size__(256))) __attribute__((aligned(4))); #define HVX_VectorPred HEXAGON_VecPred128 #define HVX_Vector HEXAGON_Vect1024 #define HVX_VectorPair HEXAGON_Vect2048 #define HVX_UVector HEXAGON_UVect1024 #define HVX_UVectorPair HEXAGON_UVect2048 #else /* defined __HVX__ && (__HVX_LENGTH__ == 128) */ #if defined __HVX__ && (__HVX_LENGTH__ == 64) typedef long HEXAGON_VecPred64 __attribute__((__vector_size__(64))) __attribute__((aligned(64))); typedef long HEXAGON_Vect512 __attribute__((__vector_size__(64))) __attribute__((aligned(64))); typedef long HEXAGON_Vect1024 __attribute__((__vector_size__(128))) __attribute__((aligned(128))); typedef long HEXAGON_UVect512 __attribute__((__vector_size__(64))) __attribute__((aligned(4))); typedef long HEXAGON_UVect1024 __attribute__((__vector_size__(128))) __attribute__((aligned(4))); #define HVX_VectorPred HEXAGON_VecPred64 #define HVX_Vector HEXAGON_Vect512 #define HVX_VectorPair HEXAGON_Vect1024 #define HVX_UVector HEXAGON_UVect512 #define HVX_UVectorPair HEXAGON_UVect1024 #endif /* defined __HVX__ && (__HVX_LENGTH__ == 64) */ #endif /* defined __HVX__ && (__HVX_LENGTH__ == 128) */ #endif /* __HVX_ARCH__ >= 65 */ /* Predicates */ typedef int HEXAGON_Pred; /*** *** backward compatibility aliases ***/ /* Old names */ #define Q6Vect Q6Vect64 #define Q6V_GET_D Q6V64_GET_D #define Q6V_GET_UD Q6V64_GET_UD #define Q6V_GET_W0 Q6V64_GET_W0 #define Q6V_GET_W1 Q6V64_GET_W1 #define Q6V_GET_UW0 Q6V64_GET_UW0 #define Q6V_GET_UW1 Q6V64_GET_UW1 #define Q6V_GET_H0 Q6V64_GET_H0 #define Q6V_GET_H1 Q6V64_GET_H1 #define Q6V_GET_H2 Q6V64_GET_H2 #define Q6V_GET_H3 Q6V64_GET_H3 #define Q6V_GET_UH0 Q6V64_GET_UH0 #define Q6V_GET_UH1 Q6V64_GET_UH1 #define Q6V_GET_UH2 Q6V64_GET_UH2 #define Q6V_GET_UH3 Q6V64_GET_UH3 #define Q6V_GET_B0 Q6V64_GET_B0 #define Q6V_GET_B1 Q6V64_GET_B1 #define Q6V_GET_B2 Q6V64_GET_B2 #define Q6V_GET_B3 Q6V64_GET_B3 #define Q6V_GET_B4 Q6V64_GET_B4 #define Q6V_GET_B5 Q6V64_GET_B5 #define Q6V_GET_B6 Q6V64_GET_B6 #define Q6V_GET_B7 Q6V64_GET_B7 #define Q6V_GET_UB0 Q6V64_GET_UB0 #define Q6V_GET_UB1 Q6V64_GET_UB1 #define Q6V_GET_UB2 Q6V64_GET_UB2 #define Q6V_GET_UB3 Q6V64_GET_UB3 #define Q6V_GET_UB4 Q6V64_GET_UB4 #define Q6V_GET_UB5 Q6V64_GET_UB5 #define Q6V_GET_UB6 Q6V64_GET_UB6 #define Q6V_GET_UB7 Q6V64_GET_UB7 #define Q6V_PUT_D Q6V64_PUT_D #define Q6V_PUT_W0 Q6V64_PUT_W0 #define Q6V_PUT_W1 Q6V64_PUT_W1 #define Q6V_PUT_H0 Q6V64_PUT_H0 #define Q6V_PUT_H1 Q6V64_PUT_H1 #define Q6V_PUT_H2 Q6V64_PUT_H2 #define Q6V_PUT_H3 Q6V64_PUT_H3 #define Q6V_PUT_B0 Q6V64_PUT_B0 #define Q6V_PUT_B1 Q6V64_PUT_B1 #define Q6V_PUT_B2 Q6V64_PUT_B2 #define Q6V_PUT_B3 Q6V64_PUT_B3 #define Q6V_PUT_B4 Q6V64_PUT_B4 #define Q6V_PUT_B5 Q6V64_PUT_B5 #define Q6V_PUT_B6 Q6V64_PUT_B6 #define Q6V_PUT_B7 Q6V64_PUT_B7 #define Q6V_CREATE_D Q6V64_CREATE_D #define Q6V_CREATE_W Q6V64_CREATE_W #define Q6V_CREATE_H Q6V64_CREATE_H #define Q6V_CREATE_B Q6V64_CREATE_B #ifdef __cplusplus #define Q6VectC Q6Vect64C #endif /* __cplusplus */ /* 64 Bit Vectors */ typedef long long __attribute__((__may_alias__)) Q6Vect64; /* Extract doubleword macros */ #define Q6V64_GET_D(v) (v) #define Q6V64_GET_UD(v) ((unsigned long long)(v)) /* Extract word macros */ #define Q6V64_GET_W0(v) \ __extension__({ \ union { \ long long d; \ int w[2]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.w[0]; \ }) #define Q6V64_GET_W1(v) \ __extension__({ \ union { \ long long d; \ int w[2]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.w[1]; \ }) #define Q6V64_GET_UW0(v) \ __extension__({ \ union { \ long long d; \ unsigned int uw[2]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.uw[0]; \ }) #define Q6V64_GET_UW1(v) \ __extension__({ \ union { \ long long d; \ unsigned int uw[2]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.uw[1]; \ }) /* Extract half word macros */ #define Q6V64_GET_H0(v) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.h[0]; \ }) #define Q6V64_GET_H1(v) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.h[1]; \ }) #define Q6V64_GET_H2(v) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.h[2]; \ }) #define Q6V64_GET_H3(v) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.h[3]; \ }) #define Q6V64_GET_UH0(v) \ __extension__({ \ union { \ long long d; \ unsigned short uh[4]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.uh[0]; \ }) #define Q6V64_GET_UH1(v) \ __extension__({ \ union { \ long long d; \ unsigned short uh[4]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.uh[1]; \ }) #define Q6V64_GET_UH2(v) \ __extension__({ \ union { \ long long d; \ unsigned short uh[4]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.uh[2]; \ }) #define Q6V64_GET_UH3(v) \ __extension__({ \ union { \ long long d; \ unsigned short uh[4]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.uh[3]; \ }) /* Extract byte macros */ #define Q6V64_GET_B0(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[0]; \ }) #define Q6V64_GET_B1(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[1]; \ }) #define Q6V64_GET_B2(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[2]; \ }) #define Q6V64_GET_B3(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[3]; \ }) #define Q6V64_GET_B4(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[4]; \ }) #define Q6V64_GET_B5(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[5]; \ }) #define Q6V64_GET_B6(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[6]; \ }) #define Q6V64_GET_B7(v) \ __extension__({ \ union { \ long long d; \ signed char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[7]; \ }) #define Q6V64_GET_UB0(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.ub[0]; \ }) #define Q6V64_GET_UB1(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.ub[1]; \ }) #define Q6V64_GET_UB2(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.ub[2]; \ }) #define Q6V64_GET_UB3(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.ub[3]; \ }) #define Q6V64_GET_UB4(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.ub[4]; \ }) #define Q6V64_GET_UB5(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.ub[5]; \ }) #define Q6V64_GET_UB6(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.ub[6]; \ }) #define Q6V64_GET_UB7(v) \ __extension__({ \ union { \ long long d; \ unsigned char ub[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.ub[7]; \ }) /* NOTE: All set macros return a Q6Vect64 type */ /* Set doubleword macro */ #define Q6V64_PUT_D(v, new) (new) /* Set word macros */ #ifdef __qdsp6__ #define Q6V64_PUT_W0(v, new) \ __extension__({ \ union { \ long long d; \ int w[2]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.w[0] = (new); \ _Q6V64_internal_union.d; \ }) #define Q6V64_PUT_W1(v, new) \ __extension__({ \ union { \ long long d; \ int w[2]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.w[1] = (new); \ _Q6V64_internal_union.d; \ }) #else /* !__qdsp6__ */ #define Q6V64_PUT_W0(v, new) \ (((v) & 0xffffffff00000000LL) | ((Q6Vect64)((unsigned int)(new)))) #define Q6V64_PUT_W1(v, new) \ (((v) & 0x00000000ffffffffLL) | (((Q6Vect64)(new)) << 32LL)) #endif /* !__qdsp6__ */ /* Set half word macros */ #ifdef __qdsp6__ #define Q6V64_PUT_H0(v, new) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.h[0] = (new); \ _Q6V64_internal_union.d; \ }) #define Q6V64_PUT_H1(v, new) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.h[1] = (new); \ _Q6V64_internal_union.d; \ }) #define Q6V64_PUT_H2(v, new) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.h[2] = (new); \ _Q6V64_internal_union.d; \ }) #define Q6V64_PUT_H3(v, new) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.h[3] = (new); \ _Q6V64_internal_union.d; \ }) #else /* !__qdsp6__ */ #define Q6V64_PUT_H0(v, new) \ (((v) & 0xffffffffffff0000LL) | ((Q6Vect64)((unsigned short)(new)))) #define Q6V64_PUT_H1(v, new) \ (((v) & 0xffffffff0000ffffLL) | (((Q6Vect64)((unsigned short)(new))) << 16LL)) #define Q6V64_PUT_H2(v, new) \ (((v) & 0xffff0000ffffffffLL) | (((Q6Vect64)((unsigned short)(new))) << 32LL)) #define Q6V64_PUT_H3(v, new) \ (((v) & 0x0000ffffffffffffLL) | (((Q6Vect64)(new)) << 48LL)) #endif /* !__qdsp6__ */ /* Set byte macros */ #ifdef __qdsp6__ #define Q6V64_PUT_B0(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[0] = (new); \ _Q6V64_internal_union.d; \ }) #define Q6V64_PUT_B1(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[1] = (new); \ _Q6V64_internal_union.d; \ }) #define Q6V64_PUT_B2(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[2] = (new); \ _Q6V64_internal_union.d; \ }) #define Q6V64_PUT_B3(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[3] = (new); \ _Q6V64_internal_union.d; \ }) #define Q6V64_PUT_B4(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[4] = (new); \ _Q6V64_internal_union.d; \ }) #define Q6V64_PUT_B5(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[5] = (new); \ _Q6V64_internal_union.d; \ }) #define Q6V64_PUT_B6(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[6] = (new); \ _Q6V64_internal_union.d; \ }) #define Q6V64_PUT_B7(v, new) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.d = (v); \ _Q6V64_internal_union.b[7] = (new); \ _Q6V64_internal_union.d; \ }) #else /* !__qdsp6__ */ #define Q6V64_PUT_B0(v, new) \ (((v) & 0xffffffffffffff00LL) | ((Q6Vect64)((unsigned char)(new)))) #define Q6V64_PUT_B1(v, new) \ (((v) & 0xffffffffffff00ffLL) | (((Q6Vect64)((unsigned char)(new))) << 8LL)) #define Q6V64_PUT_B2(v, new) \ (((v) & 0xffffffffff00ffffLL) | (((Q6Vect64)((unsigned char)(new))) << 16LL)) #define Q6V64_PUT_B3(v, new) \ (((v) & 0xffffffff00ffffffLL) | (((Q6Vect64)((unsigned char)(new))) << 24LL)) #define Q6V64_PUT_B4(v, new) \ (((v) & 0xffffff00ffffffffLL) | (((Q6Vect64)((unsigned char)(new))) << 32LL)) #define Q6V64_PUT_B5(v, new) \ (((v) & 0xffff00ffffffffffLL) | (((Q6Vect64)((unsigned char)(new))) << 40LL)) #define Q6V64_PUT_B6(v, new) \ (((v) & 0xff00ffffffffffffLL) | (((Q6Vect64)((unsigned char)(new))) << 48LL)) #define Q6V64_PUT_B7(v, new) \ (((v) & 0x00ffffffffffffffLL) | (((Q6Vect64)(new)) << 56LL)) #endif /* !__qdsp6__ */ /* NOTE: All create macros return a Q6Vect64 type */ /* Create from a doubleword */ #define Q6V64_CREATE_D(d) (d) /* Create from words */ #ifdef __qdsp6__ #define Q6V64_CREATE_W(w1, w0) \ __extension__({ \ union { \ long long d; \ int w[2]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.w[0] = (w0); \ _Q6V64_internal_union.w[1] = (w1); \ _Q6V64_internal_union.d; \ }) #else /* !__qdsp6__ */ #define Q6V64_CREATE_W(w1, w0) \ ((((Q6Vect64)(w1)) << 32LL) | ((Q6Vect64)((w0) & 0xffffffff))) #endif /* !__qdsp6__ */ /* Create from half words */ #ifdef __qdsp6__ #define Q6V64_CREATE_H(h3, h2, h1, h0) \ __extension__({ \ union { \ long long d; \ short h[4]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.h[0] = (h0); \ _Q6V64_internal_union.h[1] = (h1); \ _Q6V64_internal_union.h[2] = (h2); \ _Q6V64_internal_union.h[3] = (h3); \ _Q6V64_internal_union.d; \ }) #else /* !__qdsp6__ */ #define Q6V64_CREATE_H(h3, h2, h1, h0) \ ((((Q6Vect64)(h3)) << 48LL) | (((Q6Vect64)((h2) & 0xffff)) << 32LL) | \ (((Q6Vect64)((h1) & 0xffff)) << 16LL) | ((Q6Vect64)((h0) & 0xffff))) #endif /* !__qdsp6__ */ /* Create from bytes */ #ifdef __qdsp6__ #define Q6V64_CREATE_B(b7, b6, b5, b4, b3, b2, b1, b0) \ __extension__({ \ union { \ long long d; \ char b[8]; \ } _Q6V64_internal_union; \ _Q6V64_internal_union.b[0] = (b0); \ _Q6V64_internal_union.b[1] = (b1); \ _Q6V64_internal_union.b[2] = (b2); \ _Q6V64_internal_union.b[3] = (b3); \ _Q6V64_internal_union.b[4] = (b4); \ _Q6V64_internal_union.b[5] = (b5); \ _Q6V64_internal_union.b[6] = (b6); \ _Q6V64_internal_union.b[7] = (b7); \ _Q6V64_internal_union.d; \ }) #else /* !__qdsp6__ */ #define Q6V64_CREATE_B(b7, b6, b5, b4, b3, b2, b1, b0) \ ((((Q6Vect64)(b7)) << 56LL) | (((Q6Vect64)((b6) & 0xff)) << 48LL) | \ (((Q6Vect64)((b5) & 0xff)) << 40LL) | (((Q6Vect64)((b4) & 0xff)) << 32LL) | \ (((Q6Vect64)((b3) & 0xff)) << 24LL) | (((Q6Vect64)((b2) & 0xff)) << 16LL) | \ (((Q6Vect64)((b1) & 0xff)) << 8LL) | ((Q6Vect64)((b0) & 0xff))) #endif /* !__qdsp6__ */ #ifdef __cplusplus class Q6Vect64C { public: // Constructors Q6Vect64C(long long d = 0) : data(d) {}; Q6Vect64C(int w1, int w0) : data(Q6V64_CREATE_W(w1, w0)) {}; Q6Vect64C(short h3, short h2, short h1, short h0) : data(Q6V64_CREATE_H(h3, h2, h1, h0)) {}; Q6Vect64C(signed char b7, signed char b6, signed char b5, signed char b4, signed char b3, signed char b2, signed char b1, signed char b0) : data(Q6V64_CREATE_B(b7, b6, b5, b4, b3, b2, b1, b0)) {}; Q6Vect64C(const Q6Vect64C &v) : data(v.data) {}; Q6Vect64C &operator=(const Q6Vect64C &v) { data = v.data; return *this; }; operator long long() { return data; }; // Extract doubleword methods long long D(void) { return Q6V64_GET_D(data); }; unsigned long long UD(void) { return Q6V64_GET_UD(data); }; // Extract word methods int W0(void) { return Q6V64_GET_W0(data); }; int W1(void) { return Q6V64_GET_W1(data); }; unsigned int UW0(void) { return Q6V64_GET_UW0(data); }; unsigned int UW1(void) { return Q6V64_GET_UW1(data); }; // Extract half word methods short H0(void) { return Q6V64_GET_H0(data); }; short H1(void) { return Q6V64_GET_H1(data); }; short H2(void) { return Q6V64_GET_H2(data); }; short H3(void) { return Q6V64_GET_H3(data); }; unsigned short UH0(void) { return Q6V64_GET_UH0(data); }; unsigned short UH1(void) { return Q6V64_GET_UH1(data); }; unsigned short UH2(void) { return Q6V64_GET_UH2(data); }; unsigned short UH3(void) { return Q6V64_GET_UH3(data); }; // Extract byte methods signed char B0(void) { return Q6V64_GET_B0(data); }; signed char B1(void) { return Q6V64_GET_B1(data); }; signed char B2(void) { return Q6V64_GET_B2(data); }; signed char B3(void) { return Q6V64_GET_B3(data); }; signed char B4(void) { return Q6V64_GET_B4(data); }; signed char B5(void) { return Q6V64_GET_B5(data); }; signed char B6(void) { return Q6V64_GET_B6(data); }; signed char B7(void) { return Q6V64_GET_B7(data); }; unsigned char UB0(void) { return Q6V64_GET_UB0(data); }; unsigned char UB1(void) { return Q6V64_GET_UB1(data); }; unsigned char UB2(void) { return Q6V64_GET_UB2(data); }; unsigned char UB3(void) { return Q6V64_GET_UB3(data); }; unsigned char UB4(void) { return Q6V64_GET_UB4(data); }; unsigned char UB5(void) { return Q6V64_GET_UB5(data); }; unsigned char UB6(void) { return Q6V64_GET_UB6(data); }; unsigned char UB7(void) { return Q6V64_GET_UB7(data); }; // NOTE: All set methods return a Q6Vect64C type // Set doubleword method Q6Vect64C D(long long d) { return Q6Vect64C(Q6V64_PUT_D(data, d)); }; // Set word methods Q6Vect64C W0(int w) { return Q6Vect64C(Q6V64_PUT_W0(data, w)); }; Q6Vect64C W1(int w) { return Q6Vect64C(Q6V64_PUT_W1(data, w)); }; // Set half word methods Q6Vect64C H0(short h) { return Q6Vect64C(Q6V64_PUT_H0(data, h)); }; Q6Vect64C H1(short h) { return Q6Vect64C(Q6V64_PUT_H1(data, h)); }; Q6Vect64C H2(short h) { return Q6Vect64C(Q6V64_PUT_H2(data, h)); }; Q6Vect64C H3(short h) { return Q6Vect64C(Q6V64_PUT_H3(data, h)); }; // Set byte methods Q6Vect64C B0(signed char b) { return Q6Vect64C(Q6V64_PUT_B0(data, b)); }; Q6Vect64C B1(signed char b) { return Q6Vect64C(Q6V64_PUT_B1(data, b)); }; Q6Vect64C B2(signed char b) { return Q6Vect64C(Q6V64_PUT_B2(data, b)); }; Q6Vect64C B3(signed char b) { return Q6Vect64C(Q6V64_PUT_B3(data, b)); }; Q6Vect64C B4(signed char b) { return Q6Vect64C(Q6V64_PUT_B4(data, b)); }; Q6Vect64C B5(signed char b) { return Q6Vect64C(Q6V64_PUT_B5(data, b)); }; Q6Vect64C B6(signed char b) { return Q6Vect64C(Q6V64_PUT_B6(data, b)); }; Q6Vect64C B7(signed char b) { return Q6Vect64C(Q6V64_PUT_B7(data, b)); }; private: long long data; }; #endif /* __cplusplus */ /* 32 Bit Vectors */ typedef int Q6Vect32; /* Extract word macros */ #define Q6V32_GET_W(v) (v) #define Q6V32_GET_UW(v) ((unsigned int)(v)) /* Extract half word macros */ #define Q6V32_GET_H0(v) \ __extension__({ \ union { \ int w; \ short h[2]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.h[0]; \ }) #define Q6V32_GET_H1(v) \ __extension__({ \ union { \ int w; \ short h[2]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.h[1]; \ }) #define Q6V32_GET_UH0(v) \ __extension__({ \ union { \ int w; \ unsigned short uh[2]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.uh[0]; \ }) #define Q6V32_GET_UH1(v) \ __extension__({ \ union { \ int w; \ unsigned short uh[2]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.uh[1]; \ }) /* Extract byte macros */ #define Q6V32_GET_B0(v) \ __extension__({ \ union { \ int w; \ signed char b[4]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.b[0]; \ }) #define Q6V32_GET_B1(v) \ __extension__({ \ union { \ int w; \ signed char b[4]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.b[1]; \ }) #define Q6V32_GET_B2(v) \ __extension__({ \ union { \ int w; \ signed char b[4]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.b[2]; \ }) #define Q6V32_GET_B3(v) \ __extension__({ \ union { \ int w; \ signed char b[4]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.b[3]; \ }) #define Q6V32_GET_UB0(v) \ __extension__({ \ union { \ int w; \ unsigned char ub[4]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.ub[0]; \ }) #define Q6V32_GET_UB1(v) \ __extension__({ \ union { \ int w; \ unsigned char ub[4]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.ub[1]; \ }) #define Q6V32_GET_UB2(v) \ __extension__({ \ union { \ int w; \ unsigned char ub[4]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.ub[2]; \ }) #define Q6V32_GET_UB3(v) \ __extension__({ \ union { \ int w; \ unsigned char ub[4]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.ub[3]; \ }) /* NOTE: All set macros return a Q6Vect32 type */ /* Set word macro */ #define Q6V32_PUT_W(v, new) (new) /* Set half word macros */ #ifdef __qdsp6__ #define Q6V32_PUT_H0(v, new) \ __extension__({ \ union { \ int w; \ short h[2]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.h[0] = (new); \ _Q6V32_internal_union.w; \ }) #define Q6V32_PUT_H1(v, new) \ __extension__({ \ union { \ int w; \ short h[2]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.h[1] = (new); \ _Q6V32_internal_union.w; \ }) #else /* !__qdsp6__ */ #define Q6V32_PUT_H0(v, new) \ (((v) & 0xffff0000) | ((Q6Vect32)((unsigned short)(new)))) #define Q6V32_PUT_H1(v, new) (((v) & 0x0000ffff) | (((Q6Vect32)(new)) << 16)) #endif /* !__qdsp6__ */ /* Set byte macros */ #ifdef __qdsp6__ #define Q6V32_PUT_B0(v, new) \ __extension__({ \ union { \ int w; \ char b[4]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.b[0] = (new); \ _Q6V32_internal_union.w; \ }) #define Q6V32_PUT_B1(v, new) \ __extension__({ \ union { \ int w; \ char b[4]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.b[1] = (new); \ _Q6V32_internal_union.w; \ }) #define Q6V32_PUT_B2(v, new) \ __extension__({ \ union { \ int w; \ char b[4]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.b[2] = (new); \ _Q6V32_internal_union.w; \ }) #define Q6V32_PUT_B3(v, new) \ __extension__({ \ union { \ int w; \ char b[4]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.w = (v); \ _Q6V32_internal_union.b[3] = (new); \ _Q6V32_internal_union.w; \ }) #else /* !__qdsp6__ */ #define Q6V32_PUT_B0(v, new) \ (((v) & 0xffffff00) | ((Q6Vect32)((unsigned char)(new)))) #define Q6V32_PUT_B1(v, new) \ (((v) & 0xffff00ff) | (((Q6Vect32)((unsigned char)(new))) << 8)) #define Q6V32_PUT_B2(v, new) \ (((v) & 0xff00ffff) | (((Q6Vect32)((unsigned char)(new))) << 16)) #define Q6V32_PUT_B3(v, new) (((v) & 0x00ffffff) | (((Q6Vect32)(new)) << 24)) #endif /* !__qdsp6__ */ /* NOTE: All create macros return a Q6Vect32 type */ /* Create from a word */ #define Q6V32_CREATE_W(w) (w) /* Create from half words */ #ifdef __qdsp6__ #define Q6V32_CREATE_H(h1, h0) \ __extension__({ \ union { \ long long d; \ short h[2]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.h[0] = (h0); \ _Q6V32_internal_union.h[1] = (h1); \ _Q6V32_internal_union.d; \ }) #else /* !__qdsp6__ */ #define Q6V32_CREATE_H(h1, h0) \ ((((Q6Vect32)(h1)) << 16) | ((Q6Vect32)((h0) & 0xffff))) #endif /* !__qdsp6__ */ /* Create from bytes */ #ifdef __qdsp6__ #define Q6V32_CREATE_B(b3, b2, b1, b0) \ __extension__({ \ union { \ long long d; \ char b[4]; \ } _Q6V32_internal_union; \ _Q6V32_internal_union.b[0] = (b0); \ _Q6V32_internal_union.b[1] = (b1); \ _Q6V32_internal_union.b[2] = (b2); \ _Q6V32_internal_union.b[3] = (b3); \ _Q6V32_internal_union.d; \ }) #else /* !__qdsp6__ */ #define Q6V32_CREATE_B(b3, b2, b1, b0) \ ((((Q6Vect32)(b3)) << 24) | (((Q6Vect32)((b2) & 0xff)) << 16) | \ (((Q6Vect32)((b1) & 0xff)) << 8) | ((Q6Vect32)((b0) & 0xff))) #endif /* !__qdsp6__ */ #ifdef __cplusplus class Q6Vect32C { public: // Constructors Q6Vect32C(int w = 0) : data(w) {}; Q6Vect32C(short h1, short h0) : data(Q6V32_CREATE_H(h1, h0)) {}; Q6Vect32C(signed char b3, signed char b2, signed char b1, signed char b0) : data(Q6V32_CREATE_B(b3, b2, b1, b0)) {}; Q6Vect32C(const Q6Vect32C &v) : data(v.data) {}; Q6Vect32C &operator=(const Q6Vect32C &v) { data = v.data; return *this; }; operator int() { return data; }; // Extract word methods int W(void) { return Q6V32_GET_W(data); }; unsigned int UW(void) { return Q6V32_GET_UW(data); }; // Extract half word methods short H0(void) { return Q6V32_GET_H0(data); }; short H1(void) { return Q6V32_GET_H1(data); }; unsigned short UH0(void) { return Q6V32_GET_UH0(data); }; unsigned short UH1(void) { return Q6V32_GET_UH1(data); }; // Extract byte methods signed char B0(void) { return Q6V32_GET_B0(data); }; signed char B1(void) { return Q6V32_GET_B1(data); }; signed char B2(void) { return Q6V32_GET_B2(data); }; signed char B3(void) { return Q6V32_GET_B3(data); }; unsigned char UB0(void) { return Q6V32_GET_UB0(data); }; unsigned char UB1(void) { return Q6V32_GET_UB1(data); }; unsigned char UB2(void) { return Q6V32_GET_UB2(data); }; unsigned char UB3(void) { return Q6V32_GET_UB3(data); }; // NOTE: All set methods return a Q6Vect32C type // Set word method Q6Vect32C W(int w) { return Q6Vect32C(Q6V32_PUT_W(data, w)); }; // Set half word methods Q6Vect32C H0(short h) { return Q6Vect32C(Q6V32_PUT_H0(data, h)); }; Q6Vect32C H1(short h) { return Q6Vect32C(Q6V32_PUT_H1(data, h)); }; // Set byte methods Q6Vect32C B0(signed char b) { return Q6Vect32C(Q6V32_PUT_B0(data, b)); }; Q6Vect32C B1(signed char b) { return Q6Vect32C(Q6V32_PUT_B1(data, b)); }; Q6Vect32C B2(signed char b) { return Q6Vect32C(Q6V32_PUT_B2(data, b)); }; Q6Vect32C B3(signed char b) { return Q6Vect32C(Q6V32_PUT_B3(data, b)); }; private: int data; }; #endif /* __cplusplus */ // V65 Vector types #if __HVX_ARCH__ >= 65 #if defined __HVX__ && (__HVX_LENGTH__ == 128) typedef long Q6VecPred128 __attribute__((__vector_size__(128))) __attribute__((aligned(128))); typedef long Q6Vect1024 __attribute__((__vector_size__(128))) __attribute__((aligned(128))); typedef long Q6Vect2048 __attribute__((__vector_size__(256))) __attribute__((aligned(256))); #else /* defined __HVX__ && (__HVX_LENGTH__ == 128) */ #if defined __HVX__ && (__HVX_LENGTH__ == 64) typedef long Q6VecPred64 __attribute__((__vector_size__(64))) __attribute__((aligned(64))); typedef long Q6Vect512 __attribute__((__vector_size__(64))) __attribute__((aligned(64))); typedef long Q6Vect1024 __attribute__((__vector_size__(128))) __attribute__((aligned(128))); #endif /* defined __HVX__ && (__HVX_LENGTH__ == 64) */ #endif /* defined __HVX__ && (__HVX_LENGTH__ == 128) */ #endif /* __HVX_ARCH__ >= 65 */ /* Predicates */ typedef int Q6Pred; #ifdef __HVX__ // Extract HVX VectorPair macro. #define HEXAGON_HVX_GET_W(v) (v) // Extract HVX Vector macros. #define HEXAGON_HVX_GET_V0(v) \ __extension__({ \ union { \ HVX_VectorPair W; \ HVX_Vector V[2]; \ } _HEXAGON_HVX_internal_union; \ _HEXAGON_HVX_internal_union.W = (v); \ _HEXAGON_HVX_internal_union.V[0]; \ }) #define HEXAGON_HVX_GET_V1(v) \ __extension__({ \ union { \ HVX_VectorPair W; \ HVX_Vector V[2]; \ } _HEXAGON_HVX_internal_union; \ _HEXAGON_HVX_internal_union.W = (v); \ _HEXAGON_HVX_internal_union.V[1]; \ }) #define HEXAGON_HVX_GET_P(v) \ __extension__({ \ union { \ HVX_VectorPair W; \ HVX_VectorPred P[2]; \ } _HEXAGON_HVX_internal_union; \ _HEXAGON_HVX_internal_union.W = (v); \ _HEXAGON_HVX_internal_union.P[0]; \ }) // Set HVX VectorPair macro. #define HEXAGON_HVX_PUT_W(v, new) (new) // Set HVX Vector macros. #define HEXAGON_HVX_PUT_V0(v, new) \ __extension__({ \ union { \ HVX_VectorPair W; \ HVX_Vector V[2]; \ } _HEXAGON_HVX_internal_union; \ _HEXAGON_HVX_internal_union.W = (v); \ _HEXAGON_HVX_internal_union.V[0] = (new); \ _HEXAGON_HVX_internal_union.W; \ }) #define HEXAGON_HVX_PUT_V1(v, new) \ __extension__({ \ union { \ HVX_VectorPair W; \ HVX_Vector V[2]; \ } _HEXAGON_HVX_internal_union; \ _HEXAGON_HVX_internal_union.W = (v); \ _HEXAGON_HVX_internal_union.V[1] = (new); \ _HEXAGON_HVX_internal_union.W; \ }) #define HEXAGON_HVX_PUT_P(v, new) \ __extension__({ \ union { \ HVX_VectorPair W; \ HVX_VectorPred P[2]; \ } _HEXAGON_HVX_internal_union; \ _HEXAGON_HVX_internal_union.W = (v); \ _HEXAGON_HVX_internal_union.P[0] = (new); \ _HEXAGON_HVX_internal_union.W; \ }) #define HEXAGON_HVX_CREATE_W(v1, v0) \ __extension__({ \ union { \ HVX_VectorPair W; \ HVX_Vector V[2]; \ } _HEXAGON_HVX_internal_union; \ _HEXAGON_HVX_internal_union.V[0] = (v0); \ _HEXAGON_HVX_internal_union.V[1] = (v1); \ _HEXAGON_HVX_internal_union.W; \ }) #ifdef __cplusplus class HVX_Vect { public: // Constructors. // Default. HVX_Vect() : data(Q6_W_vcombine_VV(Q6_V_vzero(), Q6_V_vzero())){}; // Custom constructors. HVX_Vect(HVX_VectorPair W) : data(W){}; HVX_Vect(HVX_Vector v1, HVX_Vector v0) : data(HEXAGON_HVX_CREATE_W(v1, v0)){}; // Copy constructor. HVX_Vect(const HVX_Vect &W) = default; // Move constructor. HVX_Vect(HVX_Vect &&W) = default; // Assignment operator. HVX_Vect &operator=(const HVX_Vect &W) = default; operator HVX_VectorPair() { return data; }; // Extract VectorPair method. HVX_VectorPair W(void) { return HEXAGON_HVX_GET_W(data); }; // Extract Vector methods. HVX_Vector V0(void) { return HEXAGON_HVX_GET_V0(data); }; HVX_Vector V1(void) { return HEXAGON_HVX_GET_V1(data); }; HVX_VectorPred P(void) { return HEXAGON_HVX_GET_P(data); }; // NOTE: All set methods return a HVX_Vect type. // Set HVX VectorPair method. HVX_Vect W(HVX_VectorPair w) { return HVX_Vect(HEXAGON_HVX_PUT_W(data, w)); }; // Set HVX Vector methods. HVX_Vect V0(HVX_Vector v) { return HVX_Vect(HEXAGON_HVX_PUT_V0(data, v)); }; HVX_Vect V1(HVX_Vector v) { return HVX_Vect(HEXAGON_HVX_PUT_V1(data, v)); }; HVX_Vect P(HVX_VectorPred p) { return HVX_Vect(HEXAGON_HVX_PUT_P(data, p)); }; private: HVX_VectorPair data; }; #endif /* __cplusplus */ #endif /* __HVX__ */ #define HEXAGON_UDMA_DM0_STATUS_IDLE 0x00000000 #define HEXAGON_UDMA_DM0_STATUS_RUN 0x00000001 #define HEXAGON_UDMA_DM0_STATUS_ERROR 0x00000002 #define HEXAGON_UDMA_DESC_DSTATE_INCOMPLETE 0 #define HEXAGON_UDMA_DESC_DSTATE_COMPLETE 1 #define HEXAGON_UDMA_DESC_ORDER_NOORDER 0 #define HEXAGON_UDMA_DESC_ORDER_ORDER 1 #define HEXAGON_UDMA_DESC_BYPASS_OFF 0 #define HEXAGON_UDMA_DESC_BYPASS_ON 1 #define HEXAGON_UDMA_DESC_COMP_NONE 0 #define HEXAGON_UDMA_DESC_COMP_DLBC 1 #define HEXAGON_UDMA_DESC_DESCTYPE_TYPE0 0 #define HEXAGON_UDMA_DESC_DESCTYPE_TYPE1 1 typedef struct hexagon_udma_descriptor_type0_s { void *next; unsigned int length:24; unsigned int desctype:2; unsigned int dstcomp:1; unsigned int srccomp:1; unsigned int dstbypass:1; unsigned int srcbypass:1; unsigned int order:1; unsigned int dstate:1; void *src; void *dst; } hexagon_udma_descriptor_type0_t; typedef struct hexagon_udma_descriptor_type1_s { void *next; unsigned int length:24; unsigned int desctype:2; unsigned int dstcomp:1; unsigned int srccomp:1; unsigned int dstbypass:1; unsigned int srcbypass:1; unsigned int order:1; unsigned int dstate:1; void *src; void *dst; unsigned int allocation:28; unsigned int padding:4; unsigned int roiwidth:16; unsigned int roiheight:16; unsigned int srcstride:16; unsigned int dststride:16; unsigned int srcwidthoffset:16; unsigned int dstwidthoffset:16; } hexagon_udma_descriptor_type1_t; #endif /* !HEXAGON_TYPES_H */