mes/module/mescc/riscv64/as.scm

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;;; GNU Mes --- Maxwell Equations of Software
;;; Copyright © 2018 Jan (janneke) Nieuwenhuizen <janneke@gnu.org>
;;; Copyright © 2021 W. J. van der Laan <laanwj@protonmail.com>
;;; Copyright © 2023 Andrius Štikonas <andrius@stikonas.eu>
;;;
;;; This file is part of GNU Mes.
;;;
;;; GNU Mes is free software; you can redistribute it and/or modify it
;;; under the terms of the GNU General Public License as published by
;;; the Free Software Foundation; either version 3 of the License, or (at
;;; your option) any later version.
;;;
;;; GNU Mes is distributed in the hope that it will be useful, but
;;; WITHOUT ANY WARRANTY; without even the implied warranty of
;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;;; GNU General Public License for more details.
;;;
;;; You should have received a copy of the GNU General Public License
;;; along with GNU Mes. If not, see <http://www.gnu.org/licenses/>.
;;; Commentary:
;;; Define riscv64 M1 assembly
;;; Code:
(define-module (mescc riscv64 as)
#:use-module (mes guile)
#:use-module (mescc as)
#:use-module (mescc info)
#:use-module (mescc riscv64 info)
#:export (
riscv64:instructions
))
;;; reserved temporary intermediate registers
;;; t6 is used internally by M1 sequences
;;; t4 and t5 are scratch registers for code generation here
(define %tmpreg1 "t5")
(define %tmpreg2 "t4")
;;; registers for condition flags emulation
(define %condregx "s10")
(define %condregy "s11")
;;; register for return values
(define %retreg "t0")
(define %zero "x0")
;;; internal: return instruction to load an intermediate value into a register
(define (riscv64:li r v)
(riscv64:addi r %zero v))
;;; internal: return instruction to add an intermediate value into a register
(define (riscv64:addi r0 r1 v)
(cond
((= v 0)
`(,(string-append "rd_" r0 " rs1_" r1 " addi"))) ; nothing to do
((and (>= v (- #x800)) (<= v #x7ff))
`(,(string-append "rd_" r0 " rs1_" r1 " !" (number->string v) " addi")))
((and (>= v (- #x80000000)) (<= v #x7fffffff))
`(,(string-append "rd_t6 auipc\n\t"
"rd_t6 rs1_t6 !16 lw\n\t"
"rd_" r0 " rs1_" r1 " rs2_t6 add\n\t"
"!8 jal\n\t") (#:immediate ,v)))
(else
`(,(string-append "rd_" r0 " auipc\n\t"
"rd_" r0 " rs1_" r0 " !16 ld\n\t"
"rd_" r0 " rs1_" r0 " rs2_" r1 " add\n\t"
"!12 jal\n\t") (#:immediate8 ,v)))))
;;; internal: return instruction to save address of the label into register
(define (riscv64:label_address r label)
`((,(string-append "rd_" r) (#:u-format ,label) "auipc\n\t")
,(string-append "rd_" r " rs1_" r) (#:i-format ,label) "addiw"))
(define (riscv64:push r)
(string-append "rd_sp rs1_sp !-8 addi
rs1_sp rs2_" r " sd"))
(define (riscv64:pop r)
(string-append "rd_" r " rs1_sp ld
rd_sp rs1_sp !8 addi"))
;;; the preamble of every function
(define (riscv64:function-preamble info . rest)
`(("rd_sp rs1_sp !-8 addi
rs1_sp rs2_ra sd") ; push ra to stack
("rd_sp rs1_sp !-8 addi
rs1_sp rs2_fp sd") ; push fp to stack
("rd_fp rs1_sp mv")))
;;; allocate function locals
(define (riscv64:function-locals . rest)
`(
,(riscv64:addi "sp" "sp" (- (+ (* 8 1025) (* 20 8))))
)) ; 8*1024 buf, 20 local vars
;;; immediate value to register
(define (riscv64:value->r info v)
(or v (error "invalid value: riscv64:value->r: " v))
(let ((r (get-r info)))
`(,(riscv64:li r v))))
;;; assign immediate value to r0
(define (riscv64:value->r0 info v)
(let ((r0 (get-r0 info)))
`(,(riscv64:li r0 v))))
;;; function epilogue
(define (riscv64:ret . rest)
`(("rd_sp rs1_fp mv")
(,(riscv64:pop "fp"))
(,(riscv64:pop "ra"))
("ret")))
;;; stack local to register
(define (riscv64:local->r info n)
(let ((r (car (if (pair? (.allocated info)) (.allocated info) (.registers info))))
(n (- 0 (* 8 n))))
`(,(riscv64:addi %tmpreg1 "fp" n)
(,(string-append "rd_" r " rs1_" %tmpreg1 " ld")))))
;;; call a function through a label
(define (riscv64:call-label info label n)
`(("rd_ra" (#:j-format ,label) "jal")
,(riscv64:addi "sp" "sp" (* n 8))))
;;; call function pointer in register
(define (riscv64:call-r info n)
(let ((r (get-r info)))
`((,(string-append "rd_ra rs1_" r " jalr"))
,(riscv64:addi "sp" "sp" (* n 8)))))
;;; register to function argument.
(define (riscv64:r->arg info i)
(let ((r (get-r info)))
`((,(riscv64:push r)))))
;;; label to function argument
(define (riscv64:label->arg info label i)
`(,(riscv64:label_address %tmpreg1 label)
(,(riscv64:push %tmpreg1))))
;;; ALU: r0 := r0 + r1
(define (riscv64:r0+r1 info)
(let ((r1 (get-r1 info))
(r0 (get-r0 info)))
`((,(string-append "rd_" r0 " rs1_" r0 " rs2_" r1 " add")))))
;;; ALU: r0 := r0 - r1
(define (riscv64:r0-r1 info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" r0 " rs1_" r0 " rs2_" r1 " sub")))))
;;; add immediate value to r0
(define (riscv64:r0+value info v)
(let ((r0 (get-r0 info)))
`(,(riscv64:addi r0 r0 v))))
;;; add immediate to contents of 8-bit word addressed by register
(define (riscv64:r-byte-mem-add info v)
(let ((r (get-r info)))
`((,(string-append "rd_" %tmpreg1 " rs1_" r " lb"))
,(riscv64:addi %tmpreg1 %tmpreg1 v)
(,(string-append "rs1_" r " rs2_" %tmpreg1 " sb")))))
;;; add immediate to contents of 16-bit word addressed by register
(define (riscv64:r-word-mem-add info v)
(let ((r (get-r info)))
`((,(string-append "rd_" %tmpreg1 " rs1_" r " lh"))
,(riscv64:addi %tmpreg1 %tmpreg1 v)
(,(string-append "rs1_" r " rs2_" %tmpreg1 " sh")))))
;;; add immediate to contents of 32-bit word addressed by register
(define (riscv64:r-long-mem-add info v)
(let ((r (get-r info)))
`((,(string-append "rd_" %tmpreg1 " rs1_" r " lw"))
,(riscv64:addi %tmpreg1 %tmpreg1 v)
(,(string-append "rs1_" r " rs2_" %tmpreg1 " sw")))))
;;; add immediate to contents of 64-bit word addressed by register
(define (riscv64:r-mem-add info v)
(let ((r (get-r info)))
`((,(string-append "rd_" %tmpreg1 " rs1_" r " ld"))
,(riscv64:addi %tmpreg1 %tmpreg1 v)
(,(string-append "rs1_" r " rs2_" %tmpreg1 " sd")))))
;;; compute address of local variable and write result into register
(define (riscv64:local-ptr->r info n)
(let ((r (get-r info))
(n (- 0 (* 8 n))))
`((,(string-append "rd_" r " rs1_fp mv"))
,(riscv64:addi r r n))))
;;; label address into register
(define (riscv64:label->r info label)
(let ((r (get-r info)))
`(,(riscv64:label_address r label))))
;;; copy register r0 to register r1 (see also r1->r0)
(define (riscv64:r0->r1 info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" r1 " rs1_" r0 " mv")))))
;;; copy register r1 to register r0 (see also r0->r1)
(define (riscv64:r1->r0 info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" r0 " rs1_" r1 " mv")))))
;;; zero-extend 8-bit in register r
(define (riscv64:byte-r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" r " !0xFF andi")))))
;;; sign-extend 8-bit in register r
(define (riscv64:byte-signed-r info)
(let ((r (get-r info)))
`((,(riscv64:li %tmpreg1 56)
,(string-append "\n\trd_" r " rs1_" r " rs2_" %tmpreg1 " sll\n\t")
,(string-append "rd_" r " rs1_" r " rs2_" %tmpreg1 " sra")))))
;;; zero-extend 16-bit in register r
(define (riscv64:word-r info)
(let ((r (get-r info)))
`((,(riscv64:li %tmpreg1 #xffff)
,(string-append "rd_" r " rs1_" r " rs2_" %tmpreg1 " and")))))
;;; sign-extend 16-bit in register r
(define (riscv64:word-signed-r info)
(let ((r (get-r info)))
`((,(riscv64:li %tmpreg1 48)
,(string-append "\n\trd_" r " rs1_" r " rs2_" %tmpreg1 " sll\n\t")
,(string-append "rd_" r " rs1_" r " rs2_" %tmpreg1 " sra")))))
;;; zero-extend 32-bit in register r
(define (riscv64:long-r info)
(let ((r (get-r info)))
`((,(riscv64:li %tmpreg1 #xffffffff)
,(string-append "rd_" r " rs1_" r " rs2_" %tmpreg1 " and")))))
;;; sign-extend 32-bit in register r
(define (riscv64:long-signed-r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" r " addiw")))))
;;; unconditional jump to label
(define (riscv64:jump info label)
`(((#:j-format ,label) "jal")))
;;;; Flag setters ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;; test if a register is zero, set z flag accordingly
;;; see also test-r
(define (riscv64:r-zero? info)
(let ((r (car (if (pair? (.allocated info)) (.allocated info) (.registers info)))))
`((,(string-append "rd_" %condregx " rs1_" r " mv"))
,(riscv64:li %condregy 0))))
;;; test register r against 0 and set flags
;;; this is used for jump-* and cc?->r:
;;; z (both)
;;; g ge l le (signed)
;;; a ae b be (unsigned)
(define (riscv64:test-r info)
(let ((r (get-r info)))
`((,(string-append "rd_" %condregx " rs1_" r " mv"))
,(riscv64:li %condregy 0))))
;;; negate zero flag
(define (riscv64:xor-zf info)
`((,(string-append "rd_" %condregx " rs1_" %condregx " rs2_" %condregy " sub\n\t"
"rd_" %condregx " rs1_" %condregx) (#:i-format 1) "sltiu\n\t"
,(string-append "rd_" %condregy " addi"))))
;;; compare register to immediate value and set flags (see test-r)
(define (riscv64:r-cmp-value info v)
(let ((r (get-r info)))
`((,(string-append "rd_" %condregx " rs1_" r " mv"))
,(riscv64:li %condregy v))))
;;; compare register to another register and set flags (see test-r)
(define (riscv64:r0-cmp-r1 info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" %condregx " rs1_" r0 " mv"))
(,(string-append "rd_" %condregy " rs1_" r1 " mv")))))
;;;; Flag users ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;; flag-based conditional jumps (equality)
(define (riscv64:jump-nz info label)
`((,(string-append "rs1_" %condregx " rs2_" %condregy " @8 beq\n\t")
(#:j-format ,label) "jal")))
(define (riscv64:jump-z info label)
`((,(string-append "rs1_" %condregx " rs2_" %condregy " @8 bne\n\t")
(#:j-format ,label) "jal")))
; assuming the result was properly zero/sign-extended, this is the same as a
; normal jump-z
(define (riscv64:jump-byte-z info label)
`((,(string-append "rs1_" %condregx " rs2_" %condregy " @8 bne\n\t")
(#:j-format ,label) "jal")))
;;; zero flag to register
(define (riscv64:zf->r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" %condregx " rs2_" %condregy " sub\n\t"
"rd_" r " rs1_" r) (#:i-format 1) "sltiu"))))
;;; boolean: r := !e
(define (riscv64:r-negate info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" %condregx " rs2_" %condregy " sub\n\t"
"rd_" r " rs1_" r) (#:i-format 1) "sltiu"))))
;; flag-based conditional setters (signed)
(define (riscv64:g?->r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" %condregy " rs2_" %condregx " slt")))))
(define (riscv64:ge?->r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" %condregx " rs2_" %condregy " slt\n\t"
"rd_" r " rs1_" r) (#:i-format 1) "sltiu"))))
(define (riscv64:l?->r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" %condregx " rs2_" %condregy " slt")))))
(define (riscv64:le?->r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" %condregy " rs2_" %condregx " slt\n\t"
"rd_" r " rs1_" r) (#:i-format 1) "sltiu"))))
;; flag-based conditional setters (unsigned)
(define (riscv64:a?->r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" %condregy " rs2_" %condregx " sltu")))))
(define (riscv64:ae?->r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" %condregx " rs2_" %condregy " sltu\n\t"
"rd_" r " rs1_" r) (#:i-format 1) "sltiu"))))
(define (riscv64:b?->r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" %condregx " rs2_" %condregy " sltu")))))
(define (riscv64:be?->r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" %condregy " rs2_" %condregx " sltu\n\t"
"rd_" r " rs1_" r) (#:i-format 1) "sltiu"))))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;; store lower 8-bit of r0 at address r1
(define (riscv64:byte-r0->r1-mem info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rs1_" r1 " rs2_" r0 " sb")))))
;;; load word at label into register r
(define (riscv64:label-mem->r info label)
(let ((r (get-r info)))
`(,(riscv64:label_address %tmpreg1 label)
(,(string-append "rd_" r " rs1_" %tmpreg1 " ld")))))
;;; read 8-bit (and zero-extend) from address in register r into register r
(define (riscv64:byte-mem->r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" r " lbu")))))
;;; read 16-bit (and zero-extend) from address in register r into register r
(define (riscv64:word-mem->r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" r " lhu")))))
;;; read 32-bit (and zero-extend) from address in register r into register r
(define (riscv64:long-mem->r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" r " lwu")))))
;;; read 64-bit from address in register r into register r
(define (riscv64:mem->r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" r " ld")))))
(define (riscv64:local-add info n v)
(let ((n (- 0 (* 8 n))))
`(,(riscv64:li %tmpreg1 n)
(,(string-append "rd_" %tmpreg1 " rs1_" %tmpreg1 " rs2_fp add"))
(,(string-append "rd_" %tmpreg2 " rs1_" %tmpreg1 " ld"))
,(riscv64:addi %tmpreg2 %tmpreg2 v)
(,(string-append "rs1_" %tmpreg1 " rs2_" %tmpreg2 " sd")))))
(define (riscv64:label-mem-add info label v)
`(,(riscv64:label_address %tmpreg1 label)
(,(string-append "rd_" %tmpreg2 " rs1_" %tmpreg1 " ld"))
,(riscv64:addi %tmpreg2 %tmpreg2 v)
(,(string-append "rs1_" %tmpreg1 " rs2_" %tmpreg2 " sd"))))
;; no-operation
(define (riscv64:nop info)
'(("nop")))
;; swap the contents of register r0 and r1
(define (riscv64:swap-r0-r1 info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" %tmpreg1 " rs1_" r1 " mv"))
(,(string-append "rd_" r1 " rs1_" r0 " mv"))
(,(string-append "rd_" r0 " rs1_" %tmpreg1 " mv")))))
;;; write 8-bit from register r to memory at the label
(define (riscv64:r->byte-label info label)
(let ((r (get-r info)))
`(,(riscv64:label_address %tmpreg1 label)
(,(string-append "rs1_" %tmpreg1 " rs2_" r " sb")))))
;;; write 16-bit from register r to memory at the label
(define (riscv64:r->word-label info label)
(let ((r (get-r info)))
`(,(riscv64:label_address %tmpreg1 label)
(,(string-append "rs1_" %tmpreg1 " rs2_" r " sh")))))
;;; write 32-bit from register r to memory at the label
(define (riscv64:r->long-label info label)
(let ((r (get-r info)))
`(,(riscv64:label_address %tmpreg1 label)
(,(string-append "rs1_" %tmpreg1 " rs2_" r " sw")))))
;;; write 64-bit from register r to memory at the label
(define (riscv64:r->label info label)
(let ((r (get-r info)))
`(,(riscv64:label_address %tmpreg1 label)
(,(string-append "rs1_" %tmpreg1 " rs2_" r " sd")))))
;;; ALU r0 := r0 * r1
(define (riscv64:r0*r1 info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" r0 " rs1_" r0 " rs2_" r1 " mul")))))
;;; bitwise r0 := r0 << r1
(define (riscv64:r0<<r1 info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" r0 " rs1_" r0 " rs2_" r1 " sll")))))
;;; bitwise r0 := r0 << imm
(define (riscv64:shl-r info n)
(let ((r (get-r info)))
`(,(riscv64:li %tmpreg1 n)
(,(string-append "rd_" r " rs1_" r " rs2_" %tmpreg1 " sll")))))
;;; bitwise r0 := r0 >> r1 (logical, so shift in zero bits)
(define (riscv64:r0>>r1 info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" r0 " rs1_" r0 " rs2_" r1 " srl")))))
(define (riscv64:r0>>r1-signed info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" r0 " rs1_" r0 " rs2_" r1 " sra")))))
;;; bitwise r0 := r0 & r1
(define (riscv64:r0-and-r1 info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" r0 " rs1_" r0 " rs2_" r1 " and")))))
;;; bitwise r0 := r0 | r1
(define (riscv64:r0-or-r1 info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" r0 " rs1_" r0 " rs2_" r1 " or")))))
;;; bitwise r := r & imm
(define (riscv64:r-and info n)
(let ((r (get-r info)))
`(,(riscv64:li %tmpreg1 n)
(,(string-append "rd_" r " rs1_" r " rs2_" %tmpreg1 " and")))))
;;; bitwise r0 := r0 ^ r1
(define (riscv64:r0-xor-r1 info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" r0 " rs1_" r0 " rs2_" r1 " xor")))))
;;; ALU r0 := r0 / r1
(define (riscv64:r0/r1 info signed?)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" r0 " rs1_" r0 " rs2_" r1 " div")))))
;;; ALU r0 := r0 % r1
(define (riscv64:r0%r1 info signed?)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" r0 " rs1_" r0 " rs2_" r1 " rem")))))
;;; ALU r0 := r0 + imm
(define (riscv64:r+value info v)
(let ((r (get-r info)))
`(,(riscv64:addi r r v))))
;;; store 8-bit r0 into address ported by r1
(define (riscv64:byte-r0->r1-mem info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rs1_" r1 " rs2_" r0 " sb")))))
;;; store 16-bit r0 into address ported by r1
(define (riscv64:word-r0->r1-mem info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rs1_" r1 " rs2_" r0 " sh")))))
;;; store 32-bit r0 into address ported by r1
(define (riscv64:long-r0->r1-mem info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rs1_" r1 " rs2_" r0 " sw")))))
;;; store 64-bit r0 into address ported by r1
(define (riscv64:r0->r1-mem info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rs1_" r1 " rs2_" r0 " sd")))))
;;; push register to stack
(define (riscv64:push-register info r)
`((,(riscv64:push r))))
;;; push register r0 to stack (see also push-register)
(define (riscv64:push-r0 info)
(let ((r0 (get-r0 info)))
`((,(riscv64:push r0)))))
;;; pop register from stack
(define (riscv64:pop-register info r)
`((,(riscv64:pop r))))
;;; pop register r0 from stack (see also pop-register)
(define (riscv64:pop-r0 info)
(let ((r0 (get-r0 info)))
`((,(riscv64:pop r0)))))
;;; get function return value
(define (riscv64:return->r info)
(let ((r (car (.allocated info))))
(if (equal? r %retreg) '()
`((,(string-append "rd_" r " rs1_" %retreg " mv"))))))
;;; bitwise r := r + r (doubling)
(define (riscv64:r+r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" r " rs2_" r " add")))))
;;; bitwise r := ~r
(define (riscv64:not-r info)
(let ((r (get-r info)))
`((,(string-append "rd_" r " rs1_" r " not")))))
;;; load 8-bit at address r0, store to address r1
(define (riscv64:byte-r0-mem->r1-mem info)
(let* ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" %tmpreg1 " rs1_" r0 " lb"))
(,(string-append "rs1_" r1 " rs2_" %tmpreg1 " sb")))))
;;; load 16-bit at address r0, store to address r1
(define (riscv64:word-r0-mem->r1-mem info)
(let* ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" %tmpreg1 " rs1_" r0 " lh"))
(,(string-append "rs1_" r1 " rs2_" %tmpreg1 " sh")))))
;;; load 32-bit at address r0, store to address r1
(define (riscv64:long-r0-mem->r1-mem info)
(let* ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" %tmpreg1 " rs1_" r0 " lw"))
(,(string-append "rs1_" r1 " rs2_" %tmpreg1 " sw")))))
;;; load 64-bit at address r0, store to address r1
(define (riscv64:r0-mem->r1-mem info)
(let* ((r0 (get-r0 info))
(r1 (get-r1 info)))
`((,(string-append "rd_" %tmpreg1 " rs1_" r0 " ld"))
(,(string-append "rs1_" r1 " rs2_" %tmpreg1 " sd")))))
;;; register (8-bit) to stack local
(define (riscv64:byte-r->local+n info id n)
(let ((n (+ (- 0 (* 8 id)) n))
(r (get-r info)))
`(,(riscv64:addi %tmpreg1 "fp" n)
(,(string-append "rs1_" %tmpreg1 " rs2_" r " sb")))))
;;; register (16-bit) to stack local
(define (riscv64:word-r->local+n info id n)
(let ((n (+ (- 0 (* 8 id)) n))
(r (get-r info)))
`(,(riscv64:addi %tmpreg1 "fp" n)
(,(string-append "rs1_" %tmpreg1 " rs2_" r " sh")))))
;;; register (32-bit) to stack local
(define (riscv64:long-r->local+n info id n)
(let ((n (+ (- 0 (* 8 id)) n))
(r (get-r info)))
`(,(riscv64:addi %tmpreg1 "fp" n)
(,(string-append "rs1_" %tmpreg1 " rs2_" r " sw")))))
;;; register (64-bit) to stack local
(define (riscv64:r->local info n)
(let ((r (get-r info))
(n (- 0 (* 8 n))))
`(,(riscv64:addi %tmpreg1 "fp" n)
(,(string-append "rs1_" %tmpreg1 " rs2_" r " sd")))))
;;; register (64-bit) to stack local (how does this differ from r->local ?)
;;; n is computed differently
(define (riscv64:r->local+n info id n)
(let ((n (+ (- 0 (* 8 id)) n))
(r (get-r info)))
`(,(riscv64:addi %tmpreg1 "fp" n)
(,(string-append "rs1_" %tmpreg1 " rs2_" r " sd")))))
;;; swap value of register r with the top word of the stack
;; seems unused
(define (riscv64:swap-r-stack info)
(let ((r (get-r info)))
`((,(string-append "rd_" %tmpreg1 " rs1_sp ld"))
(,(string-append "rs1_sp rs2_" r " sd"))
(,(string-append "rd_" r " rs1_" %tmpreg1 " mv")))))
;;; swap value of register r0 (not r1) with the top word of the stack
;; used in expr->arg
(define (riscv64:swap-r1-stack info)
(let ((r0 (get-r0 info)))
`((,(string-append "rd_" %tmpreg1 " rs1_sp ld"))
(,(string-append "rs1_sp rs2_" r0 " sd"))
(,(string-append "rd_" r0 " rs1_" %tmpreg1 " mv")))))
;;; not entirely sure what this is supposed to do
;;; i guess the idea would be to copy register r2 to r1, but what is the pop/push about?
(define (riscv64:r2->r0 info)
(let ((r0 (get-r0 info))
(r1 (get-r1 info))
(allocated (.allocated info)))
(if (> (length allocated) 2)
(let ((r2 (cadddr allocated)))
`((,(string-append "rd_" r1 " rs1_" r2 " mv"))))
`((,(riscv64:pop r0))
(,(riscv64:push r0))))))
(define riscv64:instructions
`(
(a?->r . ,riscv64:a?->r)
(ae?->r . ,riscv64:ae?->r)
(b?->r . ,riscv64:b?->r)
(be?->r . ,riscv64:be?->r)
(byte-mem->r . ,riscv64:byte-mem->r)
(byte-r . ,riscv64:byte-r)
(byte-r->local+n . ,riscv64:byte-r->local+n)
(byte-r0->r1-mem . ,riscv64:byte-r0->r1-mem)
(byte-r0-mem->r1-mem . ,riscv64:byte-r0-mem->r1-mem)
(byte-signed-r . ,riscv64:byte-signed-r)
(call-label . ,riscv64:call-label)
(call-r . ,riscv64:call-r)
(function-locals . ,riscv64:function-locals)
(function-preamble . ,riscv64:function-preamble)
(g?->r . ,riscv64:g?->r)
(ge?->r . ,riscv64:ge?->r)
(jump . ,riscv64:jump)
;; (jump-a . ,riscv64:jump-a)
;; (jump-ae . ,riscv64:jump-ae)
;; (jump-b . ,riscv64:jump-b)
;; (jump-be . ,riscv64:jump-be)
(jump-byte-z . ,riscv64:jump-byte-z)
;; (jump-g . , riscv64:jump-g)
;; (jump-ge . , riscv64:jump-ge)
;; (jump-l . ,riscv64:jump-l)
;; (jump-le . ,riscv64:jump-le)
(jump-nz . ,riscv64:jump-nz)
(jump-z . ,riscv64:jump-z)
(l?->r . ,riscv64:l?->r)
(label->arg . ,riscv64:label->arg)
(label->r . ,riscv64:label->r)
(label-mem->r . ,riscv64:label-mem->r)
(label-mem-add . ,riscv64:label-mem-add)
(le?->r . ,riscv64:le?->r)
(local->r . ,riscv64:local->r)
(local-add . ,riscv64:local-add)
(local-ptr->r . ,riscv64:local-ptr->r)
(long-mem->r . ,riscv64:long-mem->r)
(long-r . ,riscv64:long-r)
(long-r->local+n . ,riscv64:long-r->local+n)
(long-r0->r1-mem . ,riscv64:long-r0->r1-mem)
(long-r0-mem->r1-mem . ,riscv64:long-r0-mem->r1-mem)
(long-signed-r . ,riscv64:long-signed-r)
(mem->r . ,riscv64:mem->r)
(nop . ,riscv64:nop)
(not-r . ,riscv64:not-r)
(pop-r0 . ,riscv64:pop-r0)
(pop-register . ,riscv64:pop-register)
(push-r0 . ,riscv64:push-r0)
(push-register . ,riscv64:push-register)
(quad-r0->r1-mem . ,riscv64:r0->r1-mem)
(r+r . ,riscv64:r+r)
(r+value . ,riscv64:r+value)
(r->arg . ,riscv64:r->arg)
(r->byte-label . ,riscv64:r->byte-label)
(r->label . ,riscv64:r->label)
(r->local . ,riscv64:r->local)
(r->local+n . ,riscv64:r->local+n)
(r->long-label . ,riscv64:r->long-label)
(r->word-label . ,riscv64:r->word-label)
(r-and . ,riscv64:r-and)
(r-byte-mem-add . ,riscv64:r-byte-mem-add)
(r-cmp-value . ,riscv64:r-cmp-value)
(r-long-mem-add . ,riscv64:r-long-mem-add)
(r-mem-add . ,riscv64:r-mem-add)
(r-negate . ,riscv64:r-negate)
(r-word-mem-add . ,riscv64:r-word-mem-add)
(r-zero? . ,riscv64:r-zero?)
(r0%r1 . ,riscv64:r0%r1)
(r0*r1 . ,riscv64:r0*r1)
(r0+r1 . ,riscv64:r0+r1)
(r0+value . ,riscv64:r0+value)
(r0->r1 . ,riscv64:r0->r1)
(r0->r1-mem . ,riscv64:r0->r1-mem)
(r0-and-r1 . ,riscv64:r0-and-r1)
(r0-cmp-r1 . ,riscv64:r0-cmp-r1)
(r0-mem->r1-mem . ,riscv64:r0-mem->r1-mem)
(r0-or-r1 . ,riscv64:r0-or-r1)
(r0-r1 . ,riscv64:r0-r1)
(r0-xor-r1 . ,riscv64:r0-xor-r1)
(r0/r1 . ,riscv64:r0/r1)
(r0<<r1 . ,riscv64:r0<<r1)
(r0>>r1 . ,riscv64:r0>>r1)
(r0>>r1-signed . ,riscv64:r0>>r1-signed)
(r1->r0 . ,riscv64:r1->r0)
(r2->r0 . ,riscv64:r2->r0)
(ret . ,riscv64:ret)
(return->r . ,riscv64:return->r)
(shl-r . ,riscv64:shl-r)
(swap-r-stack . ,riscv64:swap-r-stack)
(swap-r0-r1 . ,riscv64:swap-r0-r1)
(swap-r1-stack . ,riscv64:swap-r1-stack)
(test-r . ,riscv64:test-r)
(value->r . ,riscv64:value->r)
(value->r0 . ,riscv64:value->r0)
(word-mem->r . ,riscv64:word-mem->r)
(word-r . ,riscv64:word-r)
(word-r->local+n . ,riscv64:word-r->local+n)
(word-r0->r1-mem . ,riscv64:word-r0->r1-mem)
(word-r0-mem->r1-mem . ,riscv64:word-r0-mem->r1-mem)
(word-signed-r . ,riscv64:word-signed-r)
(xor-zf . ,riscv64:xor-zf)
(zf->r . ,riscv64:zf->r)
))