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Use precompiled headers to speed up compilation
[riscv-isa-sim.git] / hwacha / decode_hwacha.h
1 #ifndef _DECODE_HWACHA_H
2 #define _DECODE_HWACHA_H
3
4 #include "hwacha.h"
5 #include "hwacha_xcpt.h"
6 #include "mmu.h"
7
8 #define XS1 (xs1)
9 #define XS2 (xs2)
10 #define WRITE_XRD(value) (xd = value)
11
12 #define NXPR (h->get_ct_state()->nxpr)
13 #define NFPR (h->get_ct_state()->nfpr)
14 #define MAXVL (h->get_ct_state()->maxvl)
15 #define VL (h->get_ct_state()->vl)
16 #define UTIDX (h->get_ct_state()->count)
17 #define VF_PC (h->get_ct_state()->vf_pc)
18 #define WRITE_NXPR(nxprnext) (h->get_ct_state()->nxpr = (nxprnext))
19 #define WRITE_NFPR(nfprnext) (h->get_ct_state()->nfpr = (nfprnext))
20 #define WRITE_MAXVL(maxvlnext) (h->get_ct_state()->maxvl = (maxvlnext))
21 #define WRITE_VL(vlnext) (h->get_ct_state()->vl = (vlnext))
22 #define WRITE_UTIDX(value) (h->get_ct_state()->count = (value))
23 #define WRITE_VF_PC(pcnext) (h->get_ct_state()->vf_pc = (pcnext))
24 #define WRITE_PREC(precision) (h->get_ct_state()->prec = (precision))
25
26 #define INSN_RS1 (insn.rs1())
27 #define INSN_RS2 (insn.rs2())
28 #define INSN_RS3 (insn.rs3())
29 #define INSN_RD (insn.rd())
30 #define INSN_SEG (((reg_t)insn.i_imm() >> 9)+1)
31
32 static inline reg_t read_xpr(hwacha_t* h, insn_t insn, uint32_t idx, size_t src)
33 {
34 if (src >= h->get_ct_state()->nxpr)
35 h->take_exception(HWACHA_CAUSE_TVEC_ILLEGAL_REGID, insn.bits());
36 return (h->get_ut_state(idx)->XPR[src]);
37 }
38
39 static inline void write_xpr(hwacha_t* h, insn_t insn, uint32_t idx, size_t dst, reg_t value)
40 {
41 if (dst >= h->get_ct_state()->nxpr)
42 h->take_exception(HWACHA_CAUSE_TVEC_ILLEGAL_REGID, insn.bits());
43 h->get_ut_state(idx)->XPR.write(dst, value);
44 }
45
46 #define UT_READ_XPR(idx, src) read_xpr(h, insn, idx, src)
47 #define UT_WRITE_XPR(idx, dst, value) write_xpr(h, insn, idx, dst, value)
48 #define UT_RS1(idx) (UT_READ_XPR(idx, INSN_RS1))
49 #define UT_RS2(idx) (UT_READ_XPR(idx, INSN_RS2))
50 #define UT_WRITE_RD(idx, value) (UT_WRITE_XPR(idx, INSN_RD, value))
51
52 static inline reg_t read_fpr(hwacha_t* h, insn_t insn, uint32_t idx, size_t src)
53 {
54 if (src >= h->get_ct_state()->nfpr)
55 h->take_exception(HWACHA_CAUSE_TVEC_ILLEGAL_REGID, insn.bits());
56 return (h->get_ut_state(idx)->FPR[src]);
57 }
58
59 static inline void write_fpr(hwacha_t* h, insn_t insn, uint32_t idx, size_t dst, reg_t value)
60 {
61 if (dst >= h->get_ct_state()->nfpr)
62 h->take_exception(HWACHA_CAUSE_TVEC_ILLEGAL_REGID, insn.bits());
63 h->get_ut_state(idx)->FPR.write(dst, value);
64 }
65
66 #define UT_READ_FPR(idx, src) read_fpr(h, insn, idx, src)
67 #define UT_WRITE_FPR(idx, dst, value) write_fpr(h, insn, idx, dst, value)
68 #define UT_FRS1(idx) (UT_READ_FPR(idx, INSN_RS1))
69 #define UT_FRS2(idx) (UT_READ_FPR(idx, INSN_RS2))
70 #define UT_FRS3(idx) (UT_READ_FPR(idx, INSN_RS3))
71 #define UT_WRITE_FRD(idx, value) (UT_WRITE_FPR(idx, INSN_RD, value))
72
73 #define VEC_SEG_LOAD(dst, func, inc) \
74 VEC_SEG_ST_LOAD(dst, func, INSN_SEG*inc, inc)
75
76 #define VEC_SEG_ST_LOAD(dst, func, stride, inc) \
77 reg_t seg_addr = XS1; \
78 for (uint32_t i=0; i<VL; i++) { \
79 reg_t addr = seg_addr; \
80 seg_addr += stride; \
81 for (uint32_t j=0; j<INSN_SEG; j++) { \
82 UT_WRITE_##dst(i, INSN_RD+j, p->get_mmu()->func(addr)); \
83 addr += inc; \
84 } \
85 }
86
87 #define VEC_SEG_STORE(src, func, inc) \
88 VEC_SEG_ST_STORE(src, func, INSN_SEG*inc, inc)
89
90 #define VEC_SEG_ST_STORE(src, func, stride, inc) \
91 reg_t seg_addr = XS1; \
92 for (uint32_t i=0; i<VL; i++) { \
93 reg_t addr = seg_addr; \
94 seg_addr += stride; \
95 for (uint32_t j=0; j<INSN_SEG; j++) { \
96 p->get_mmu()->func(addr, UT_READ_##src(i, INSN_RD+j)); \
97 addr += inc; \
98 } \
99 }
100
101 #define require_supervisor_hwacha \
102 if (unlikely(!(p->get_state()->sr & SR_S))) \
103 h->take_exception(HWACHA_CAUSE_PRIVILEGED_INSTRUCTION, insn.bits());
104
105 #endif
Simple-V augmented version of spike