Memory Copy Forward-only, reads and writes unprivileged and non-temporal. These instructions perform a memory copy. The prologue, main, and epilogue instructions are expected to be run in succession and to appear consecutively in memory: CPYFPTN, then CPYFMTN, and then CPYFETN.
CPYFPTN performs some preconditioning of the arguments suitable for using the CPYFMTN instruction, and performs an implementation defined amount of the memory copy. CPYFMTN performs an implementation defined amount of the memory copy. CPYFETN performs the last part of the memory copy.
The inclusion of implementation defined amounts of memory copy allows some optimization of the size that can be performed.
The memory copy performed by these instructions is in the forward direction only, so the instructions are suitable for a memory copy only where there is no overlap between the source and destination locations, or where the source address is greater than the destination address.
The architecture supports two algorithms for the memory copy: option A and option B. Which algorithm is used is implementation defined.
Portable software should not assume that the choice of algorithm is constant.
After execution of CPYFPTN, option A (which results in encoding PSTATE.C = 0):
After execution of CPYFPTN, option B (which results in encoding PSTATE.C = 1):
For CPYFMTN, option A (encoded by PSTATE.C = 0), the format of the arguments is:
For CPYFMTN, option B (encoded by PSTATE.C = 1), the format of the arguments is:
For CPYFETN, option A (encoded by PSTATE.C = 0), the format of the arguments is:
For CPYFETN, option B (encoded by PSTATE.C = 1), the format of the arguments is:
31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 | 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 | 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 | 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
sz | 0 | 1 | 1 | 0 | 0 | 1 | op1 | 0 | Rs | 1 | 1 | 1 | 1 | 0 | 1 | Rn | Rd | ||||||||||||||
op2 |
if !HaveFeatMOPS() then UNDEFINED; if sz != '00' then UNDEFINED; integer d = UInt(Rd); integer s = UInt(Rs); integer n = UInt(Rn); bits(4) options = op2; MOPSStage stage; case op1 of when '00' stage = MOPSStage_Prologue; when '01' stage = MOPSStage_Main; when '10' stage = MOPSStage_Epilogue; otherwise SEE "Memory Copy and Memory Set"; if d == s || s == n || d == n then UNDEFINED; if d == 31 || s == 31 || n == 31 then UNDEFINED;
CheckMOPSEnabled(); integer N = MaxBlockSizeCopiedBytes(); bits(64) toaddress = X[d]; bits(64) fromaddress = X[s]; bits(64) cpysize = X[n]; bits(64) stagecpysize; bits(8*N) readdata; integer B; if HaveMTE2Ext() then SetTagCheckedInstruction(TRUE); boolean supports_option_a = MemCpyOptionA(); (racctype, wacctype) = MemCpyAccessTypes(options); if stage == MOPSStage_Prologue then if cpysize<63> == '1' then cpysize = 0x7FFFFFFFFFFFFFFF<63:0>; if supports_option_a then PSTATE.C = '0'; // Copy in the forward direction offsets the arguments. toaddress = toaddress + cpysize; fromaddress = fromaddress + cpysize; cpysize = Zeros(64) - cpysize; else PSTATE.C = '1'; PSTATE.N = '0'; PSTATE.V = '0'; PSTATE.Z = '0'; // IMP DEF selection of the amount covered by pre-processing. stagecpysize = CPYPreSizeChoice(toaddress, fromaddress, cpysize); assert stagecpysize<63> == cpysize<63> || stagecpysize == Zeros(); if SInt(cpysize) > 0 then assert SInt(stagecpysize) <= SInt(cpysize); else assert SInt(stagecpysize) >= SInt(cpysize); else boolean zero_size_exceptions = MemCpyZeroSizeCheck(); // Check if this version is consistent with the state of the call. if zero_size_exceptions || SInt(cpysize) != 0 then if supports_option_a then if PSTATE.C == '1' then boolean wrong_option = TRUE; boolean from_epilogue = stage == MOPSStage_Epilogue; MismatchedMemCpyException(supports_option_a, d, s, n, wrong_option, from_epilogue, options); else if PSTATE.C == '0' then boolean wrong_option = TRUE; boolean from_epilogue = stage == MOPSStage_Epilogue; MismatchedMemCpyException(supports_option_a, d, s, n, wrong_option, from_epilogue, options); bits(64) postsize = CPYPostSizeChoice(toaddress, fromaddress, cpysize); assert postsize<63> == cpysize<63> || SInt(postsize) == 0; if stage == MOPSStage_Main then stagecpysize = cpysize - postsize; // Check if the parameters to this instruction are valid. if MemCpyParametersIllformedM(toaddress, fromaddress, cpysize) then boolean wrong_option = FALSE; boolean from_epilogue = FALSE; MismatchedMemCpyException(supports_option_a, d, s, n, wrong_option, from_epilogue, options); else stagecpysize = postsize; // Check if the parameters to this instruction are valid for the epilogue. if (cpysize != postsize || MemCpyParametersIllformedE(toaddress, fromaddress, cpysize)) then boolean wrong_option = FALSE; boolean from_epilogue = TRUE; MismatchedMemCpyException(supports_option_a, d, s, n, wrong_option, from_epilogue, options); if supports_option_a then while SInt(stagecpysize) != 0 do // IMP DEF selection of the block size that is worked on. While many // implementations might make this constant, that is not assumed. B = CPYSizeChoice(toaddress, fromaddress, cpysize); assert B <= -1*SInt(stagecpysize); readdata<B*8-1:0> = Mem[fromaddress + cpysize, B, racctype]; Mem[toaddress + cpysize, B, wacctype] = readdata<B*8-1:0>; cpysize = cpysize + B; stagecpysize = stagecpysize + B; if stage != MOPSStage_Prologue then X[n] = cpysize; else while UInt(stagecpysize) > 0 do // IMP DEF selection of the block size that is worked on. While many // implementations might make this constant, that is not assumed. B = CPYSizeChoice(toaddress, fromaddress, cpysize); assert B <= UInt(stagecpysize); readdata<B*8-1:0> = Mem[fromaddress, B, racctype]; Mem[toaddress, B, wacctype] = readdata<B*8-1:0>; fromaddress = fromaddress + B; toaddress = toaddress + B; cpysize = cpysize - B; stagecpysize = stagecpysize - B; if stage != MOPSStage_Prologue then X[n] = cpysize; X[d] = toaddress; X[s] = fromaddress; if stage == MOPSStage_Prologue then X[n] = cpysize; X[d] = toaddress; X[s] = fromaddress;
Internal version only: isa v33.11seprel, AdvSIMD v29.05, pseudocode v2021-09_rel, sve v2021-09_rc3d ; Build timestamp: 2021-10-06T11:41
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