Lu Mitnick
2011-Jan-18 18:28 UTC
[LLVMdev] Question about porting LLVM - a single instruction op mnemonic with multiple operand forms
Hello all, I am at the adding Instruction Set stage of adding new target support into LLVM. There is a single instruction op mnemonic with multiple operand forms. For example: Add R1, R2 & Add @R1, R2. I found that there is similar case in x86 instruction set, such like ADD reg, reg & ADD mem, reg. However, the solution of x86 is adding suffix of instruction and translating instruction op mnemonic into ADDrr & ADDmr. I don't want to translate single instruction op mnemonic with different operand forms into multiple op mnemonics. I am wondering to know whether is another solution of this problem or not?? Which target should I look for it?? thanks a lot yi-hong -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20110119/de8cd4b8/attachment.html>
Villmow, Micah
2011-Jan-18 18:50 UTC
[LLVMdev] Question about porting LLVM - a single instruction op mnemonic with multiple operand forms
I have this same problem in our backend. I solve it by adding a pseudo instruction at instruction selection that transforms @R1 into R1, so only a single pattern is required. I then can propogate the pseudo instruction after instruction selection. Micah From: llvmdev-bounces at cs.uiuc.edu [mailto:llvmdev-bounces at cs.uiuc.edu] On Behalf Of Lu Mitnick Sent: Tuesday, January 18, 2011 10:29 AM To: llvmdev at cs.uiuc.edu Subject: [LLVMdev] Question about porting LLVM - a single instruction op mnemonic with multiple operand forms Hello all, I am at the adding Instruction Set stage of adding new target support into LLVM. There is a single instruction op mnemonic with multiple operand forms. For example: Add R1, R2 & Add @R1, R2. I found that there is similar case in x86 instruction set, such like ADD reg, reg & ADD mem, reg. However, the solution of x86 is adding suffix of instruction and translating instruction op mnemonic into ADDrr & ADDmr. I don't want to translate single instruction op mnemonic with different operand forms into multiple op mnemonics. I am wondering to know whether is another solution of this problem or not?? Which target should I look for it?? thanks a lot yi-hong -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20110118/4adb591a/attachment.html>
Lu Mitnick
2011-Jan-18 19:48 UTC
[LLVMdev] Question about porting LLVM - a single instruction op mnemonic with multiple operand forms
Hello Villmow, Is it your backend EFI Byte Code Virtual Machine?? Would you mind to give me an example about what pseudo instruction you add?? thanks a lot yi-hong 2011/1/19 Villmow, Micah <Micah.Villmow at amd.com>> I have this same problem in our backend. I solve it by adding a pseudo > instruction at instruction selection that transforms @R1 into R1, so only a > single pattern is required. I then can propogate the pseudo instruction > after instruction selection. > > > > Micah > > > > *From:* llvmdev-bounces at cs.uiuc.edu [mailto:llvmdev-bounces at cs.uiuc.edu] *On > Behalf Of *Lu Mitnick > *Sent:* Tuesday, January 18, 2011 10:29 AM > *To:* llvmdev at cs.uiuc.edu > *Subject:* [LLVMdev] Question about porting LLVM - a single instruction op > mnemonic with multiple operand forms > > > > Hello all, > > > > I am at the adding Instruction Set stage of adding new target support into > LLVM. There is a single instruction op mnemonic with multiple operand forms. > For example: Add R1, R2 & Add @R1, R2. I found that there is similar case in > x86 instruction set, such like ADD reg, reg & ADD mem, reg. However, the > solution of x86 is adding suffix of instruction and translating instruction > op mnemonic into ADDrr & ADDmr. I don't want to translate single instruction > op mnemonic with different operand forms into multiple op mnemonics. I am > wondering to know whether is another solution of this problem or not?? Which > target should I look for it?? > > > > thanks a lot > > > > yi-hong >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20110119/0288d06c/attachment.html>
Jim Grosbach
2011-Jan-18 21:32 UTC
[LLVMdev] Question about porting LLVM - a single instruction op mnemonic with multiple operand forms
Hello, Having separate instruction patterns, one per encoding, is the correct answer. They are not the same instruction, from LLVM's perspective, even though they share the same mnemonic. X86 is doing things the right way for this. Consider that the instruction printing, instruction selection (isel pattern), and binary encoding will all need to do things differently depending on the types of the operands. Likewise, the scheduling itinerary will almost certainly be different (memory vs. register). That's best handled by having separate instruction definitions. -Jim On Jan 18, 2011, at 10:28 AM, Lu Mitnick wrote:> Hello all, > > I am at the adding Instruction Set stage of adding new target support into LLVM. There is a single instruction op mnemonic with multiple operand forms. For example: Add R1, R2 & Add @R1, R2. I found that there is similar case in x86 instruction set, such like ADD reg, reg & ADD mem, reg. However, the solution of x86 is adding suffix of instruction and translating instruction op mnemonic into ADDrr & ADDmr. I don't want to translate single instruction op mnemonic with different operand forms into multiple op mnemonics. I am wondering to know whether is another solution of this problem or not?? Which target should I look for it?? > > thanks a lot > > yi-hong > _______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev
David A. Greene
2011-Jan-21 22:59 UTC
[LLVMdev] Question about porting LLVM - a single instruction op mnemonic with multiple operand forms
"Villmow, Micah" <Micah.Villmow at amd.com> writes:> I have this same problem in our backend. I solve it by adding a pseudo > instruction at instruction selection that transforms @R1 into R1, so > only a single pattern is required. I then can propogate the pseudo > instruction after instruction selection.What's the rationale behind this approach? It seems a bit clumsy to me. An instruction with varying addressing modes is not a single instruction. They have different encodings, for starters. Defining separate patterns for them is the "clean" LLVM approach. I would think your approach adds the danger of the pseudo-instruction getting lost at some point. If the redundancy in specifying patterns for different addressing modes is the problem, I have some stuff to submit that helps with that. It will probably take quite a bit of patch churn before it makes it to trunk, however. -Dave
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