From: Luke Kenneth Casson Leighton Date: Fri, 27 Oct 2023 09:26:38 +0000 (+0100) Subject: remove ambiguity of english description in stbsx X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=b5621d633591e1283c5df07f7a937827d2ca4012;p=openpower-isa.git remove ambiguity of english description in stbsx --- diff --git a/openpower/isa/fixedstoreshift.mdwn b/openpower/isa/fixedstoreshift.mdwn index c6d1f9b7..dbb22f03 100644 --- a/openpower/isa/fixedstoreshift.mdwn +++ b/openpower/isa/fixedstoreshift.mdwn @@ -28,9 +28,9 @@ Pseudo-code: Description: - Let the effective address (EA) be the sum (RA|0) plus the contents of - register RB shifted by (SH+1). RS [56:63] are stored into the byte in - storage addressed by EA. + Let the effective address (EA) be the sum of the contents of + register RB shifted by (SH+1) and (RA|0). + RS [56:63] are stored into the byte in storage addressed by EA. Special Registers Altered: diff --git a/openpower/isa/pifixedloadshift.mdwn b/openpower/isa/pifixedloadshift.mdwn new file mode 100644 index 00000000..0418b1cd --- /dev/null +++ b/openpower/isa/pifixedloadshift.mdwn @@ -0,0 +1,295 @@ + + + + + + + + + + +# Load Byte and Zero with Post-Update + +D-Form + +* lbzup RT,D(RA) + +Pseudo-code: + + EA <- (RA) + RT <- ([0] * (XLEN-8)) || MEM(EA, 1) + RA <- (RA) + EXTS(D) + +Description: + + Let the effective address (EA) be register RA. + The byte in storage addressed by EA is loaded into RT[56:63]. + RT[0:55] are set to 0. + + The sum (RA) + D is placed into register RA. + + If RA=0 or RA=RT, the instruction form is invalid. + +Special Registers Altered: + + None + +# Load Byte and Zero with Post-Update Indexed + +X-Form + +* lbzupx RT,RA,RB + +Pseudo-code: + + EA <- (RA) + RT <- ([0] * (XLEN-8)) || MEM(EA, 1) + RA <- (RA) + (RB) + +Description: + + Let the effective address (EA) be register RA. + The byte in storage addressed by EA is loaded into RT[56:63]. + RT[0:55] are set to 0. + + The sum (RA) + (RB) is placed into register RA. + + If RA=0 or RA=RT, the instruction form is invalid. + +Special Registers Altered: + + None + +# Load Halfword and Zero with Post-Update + +D-Form + +* lhzup RT,D(RA) + +Pseudo-code: + + EA <- (RA) + RT <- ([0] * (XLEN-16)) || MEM(EA, 2) + RA <- (RA) + EXTS(D) + +Description: + + Let the effective address (EA) be register RA. + The halfword in storage addressed by EA is loaded into RT[48:63]. + RT[0:47] are set to 0. + + The sum (RA) + D is placed into register RA. + + If RA=0 or RA=RT, the instruction form is invalid. + +Special Registers Altered: + + None + +# Load Halfword and Zero with Post-Update Indexed + +X-Form + +* lhzupx RT,RA,RB + +Pseudo-code: + + EA <- (RA) + RT <- ([0] * (XLEN-16)) || MEM(EA, 2) + RA <- (RA) + (RB) + +Description: + + Let the effective address (EA) be register RA. + The halfword in storage addressed by EA is loaded into RT[48:63]. + RT[0:47] are set to 0. + + The sum (RA) + (RB) is placed into register RA. + + If RA=0 or RA=RT, the instruction form is invalid. + +Special Registers Altered: + + None + +# Load Halfword Algebraic with Post-Update + +D-Form + +* lhaup RT,D(RA) + +Pseudo-code: + + EA <- (RA) + RT <- EXTS(MEM(EA, 2)) + RA <- (RA) + EXTS(D) + +Description: + + Let the effective address (EA) be the register RA. + The halfword in storage addressed by EA is loaded into RT[48:63]. + RT[0:47] are filled with a copy of bit 0 of the loaded halfword. + + The sum (RA) + D is placed into register RA. + + If RA=0 or RA=RT, the instruction form is invalid. + +Special Registers Altered: + + None + +# Load Halfword Algebraic with Post-Update Indexed + +X-Form + +* lhaupx RT,RA,RB + +Pseudo-code: + + EA <- (RA) + RT <- EXTS(MEM(EA, 2)) + RA <- (RA) + (RB) + +Description: + + Let the effective address (EA) be the register RA. + The halfword in storage addressed by EA is loaded into RT[48:63]. + RT[0:47] are filled with a copy of bit 0 of the loaded halfword. + + The sum (RA) + (RB) is placed into register RA. + + If RA=0 or RA=RT, the instruction form is invalid. + +Special Registers Altered: + + None + +# Load Word and Zero with Post-Update + +D-Form + +* lwzup RT,D(RA) + +Pseudo-code: + + EA <- (RA) + RT <- [0]*32 || MEM(EA, 4) + RA <- (RA) + EXTS(D) + +Description: + + Let the effective address (EA) be the register RA. + The halfword in storage addressed by EA is loaded into RT[48:63]. + RT[0:47] are filled with a copy of bit 0 of the loaded halfword. + + The sum (RA) + D is placed into register RA. + + If RA=0 or RA=RT, the instruction form is invalid. + +Special Registers Altered: + + None + +# Load Word and Zero with Post-Update Indexed + +X-Form + +* lwzupx RT,RA,RB + +Pseudo-code: + + EA <- (RA) + RT <- [0] * 32 || MEM(EA, 4) + RA <- (RA) + (RB) + +Description: + + Let the effective address (EA) be the register RA. + The halfword in storage addressed by EA is loaded into RT[48:63]. + RT[0:47] are filled with a copy of bit 0 of the loaded halfword. + + The sum (RA) + (RB) is placed into register RA. + + If RA=0 or RA=RT, the instruction form is invalid. + +Special Registers Altered: + + None + +# Load Word Algebraic with Post-Update Indexed + +X-Form + +* lwaupx RT,RA,RB + +Pseudo-code: + + EA <- (RA) + RT <- EXTS(MEM(EA, 4)) + RA <- (RA) + (RB) + +Description: + + Let the effective address (EA) be the register RA. + The word in storage addressed by EA is loaded into RT[32:63]. + RT[0:31] are filled with a copy of bit 0 of the loaded word. + + The sum (RA) + (RB) is placed into register RA. + + If RA=0 or RA=RT, the instruction form is invalid. + +Special Registers Altered: + + None + +# Load Doubleword with Post-Update Indexed + +DS-Form + +* ldup RT,DS(RA) + +Pseudo-code: + + EA <- (RA) + RT <- MEM(EA, 8) + RA <- (RA) + EXTS(DS || 0b00) + +Description: + + Let the effective address (EA) be the register RA. + The doubleword in storage addressed by EA is loaded into RT. + + The sum (RA)+ (DS||0b00) is placed into register RA. + + If RA=0 or RA=RT, the instruction form is invalid. + +Special Registers Altered: + + None + +# Load Doubleword with Post-Update Indexed + +X-Form + +* ldupx RT,RA,RB + +Pseudo-code: + + EA <- (RA) + RT <- MEM(EA, 8) + RA <- (RA) + (RB) + +Description: + + Let the effective address (EA) be the register RA. + The doubleword in storage addressed by EA is loaded + into RT. + + The sum (RA) + (RB) is placed into register RA. + + If RA=0 or RA=RT, the instruction form is invalid. + +Special Registers Altered: + + None +