;;; GNU Mes --- Maxwell Equations of Software ;;; Copyright © 2018 Jan (janneke) Nieuwenhuizen ;;; Copyright © 2021 W. J. van der Laan ;;; ;;; 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 . ;;; 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") ;;; internal: return instruction to load an intermediate value into a register (define (riscv64:li r v) (cond ((= v 0) `(,(string-append "mv_____%" r ",%x0"))) ((and (>= v (- #x8000)) (<= v #x7fff)) `(,(string-append "li_____%" r ",$i16_0000") (#:immediate2 ,v) ,(string-append "srai___%" r ",16"))) ((and (>= v (- #x80000000)) (<= v #x7fffffff)) `(,(string-append "li_____%" r ",$i32") (#:immediate ,v))) (else `(,(string-append "li_____%" r ",$i64") (#:immediate8 ,v))))) ;;; internal: return instruction to add an intermediate value into a register (define (riscv64:addi r0 r1 v) (cond ((= v 0) `(,(string-append "; addi___%" r0 ",%" r1 ",0"))) ; nothing to do ((= v 1) `(,(string-append "addi___%" r0 ",%" r1 ",1"))) ((= v -1) `(,(string-append "addi___%" r0 ",%" r1 ",-1"))) ((and (>= v (- #x800)) (<= v #x7ff) (= (logand v 15) 0)) `(,(string-append "addi___%" r0 ",%" r1 ",$i8_0") (#:immediate1 ,(ash v -4)))) ((and (>= v (- #x800)) (<= v #x7ff) (= (logand v 15) 8)) `(,(string-append "addi___%" r0 ",%" r1 ",$i8_8") (#:immediate1 ,(ash v -4)))) ((and (>= v (- #x80000000)) (<= v #x7fffffff)) `(,(string-append "addi___%" r0 ",%" r1 ",$i32") (#:immediate ,v))) (else `(,(string-append "addi___%" r0 ",%" r1 ",$i64") (#:immediate8 ,v))))) ;;; the preamble of every function (define (riscv64:function-preamble info . rest) `(("push___%ra") ("push___%fp") ("mv_____%fp,%sp"))) ;;; allocate function locals (define (riscv64:function-locals . rest) `( ,(riscv64:addi "sp" "sp" (- (+ (* 4 1025) (* 20 8)))) )) ; 4*1024 buf, 20 local vars ;;; immediate value to register (define (riscv64:value->r info v) (or v (error "invalid value: riscv64:value->r: " v)) (let ((r (get-r info))) `(,(riscv64:li r v)))) ;;; assign immediate value to r0 (define (riscv64:value->r0 info v) (let ((r0 (get-r0 info))) `(,(riscv64:li r0 v)))) ;;; function epilogue (define (riscv64:ret . rest) '(("mv_____%sp,%fp") ("pop____%fp") ("pop____%ra") ("ret"))) ;;; stack local to register (define (riscv64:local->r info n) (let ((r (car (if (pair? (.allocated info)) (.allocated info) (.registers info)))) (n (- 0 (* 8 n)))) `(,(riscv64:addi %tmpreg1 "fp" n) (,(string-append "ld_____%" r ",0(%" %tmpreg1 ")"))))) ;;; call a function through a label (define (riscv64:call-label info label n) `(("jal.a__$i32" (#:address ,label)) ,(riscv64:addi "sp" "sp" (* n 8)) )) ;;; call function pointer in register (define (riscv64:call-r info n) (let ((r (get-r info))) `((,(string-append "jalr___%" r)) ,(riscv64:addi "sp" "sp" (* n 8))))) ;;; register to function argument. (define (riscv64:r->arg info i) (let ((r (get-r info))) `((,(string-append "push___%" r))))) ;;; label to function argument (define (riscv64:label->arg info label i) `((,(string-append "li_____%" %tmpreg1 ",$i32") (#:address ,label)) (,(string-append "push___%" %tmpreg1)))) ; FIXME 64bit ;;; ALU: r0 := r0 + r1 (define (riscv64:r0+r1 info) (let ((r1 (get-r1 info)) (r0 (get-r0 info))) `((,(string-append "add____%" r0 ",%" r0 ",%" r1))))) ;;; ALU: r0 := r0 - r1 (define (riscv64:r0-r1 info) (let ((r0 (get-r0 info)) (r1 (get-r1 info))) `((,(string-append "sub____%" r0 ",%" r0 ",%" r1))))) ;;; add immediate value to r0 (define (riscv64:r0+value info v) (let ((r0 (get-r0 info))) `(,(riscv64:addi r0 r0 v)))) ;;; add immediate to contents of 8-bit word addressed by register (define (riscv64:r-byte-mem-add info v) (let ((r (get-r info))) `((,(string-append "lb_____%" %tmpreg1 ",0(%" r ")")) ,(riscv64:addi %tmpreg1 %tmpreg1 v) (,(string-append "sb_____%" %tmpreg1 ",0(%" r ")"))))) ;;; add immediate to contents of 16-bit word addressed by register (define (riscv64:r-word-mem-add info v) (let ((r (get-r info))) `((,(string-append "lh_____%" %tmpreg1 ",0(%" r ")")) ,(riscv64:addi %tmpreg1 %tmpreg1 v) (,(string-append "sh_____%" %tmpreg1 ",0(%" r ")"))))) ;;; add immediate to contents of 32-bit word addressed by register (define (riscv64:r-long-mem-add info v) (let ((r (get-r info))) `((,(string-append "lw_____%" %tmpreg1 ",0(%" r ")")) ,(riscv64:addi %tmpreg1 %tmpreg1 v) (,(string-append "sw_____%" %tmpreg1 ",0(%" r ")"))))) ;;; add immediate to contents of 64-bit word addressed by register (define (riscv64:r-mem-add info v) (let ((r (get-r info))) `((,(string-append "ld_____%" %tmpreg1 ",0(%" r ")")) ,(riscv64:addi %tmpreg1 %tmpreg1 v) (,(string-append "sd_____%" %tmpreg1 ",0(%" r ")"))))) ;;; compute address of local variable and write result into register (define (riscv64:local-ptr->r info n) (let ((r (get-r info)) (n (- 0 (* 8 n)))) `((,(string-append "mv_____%" r ",%fp")) ,(riscv64:addi r r n)))) ;;; label address into register (define (riscv64:label->r info label) (let ((r (get-r info))) `((,(string-append "li_____%" r ",$i32") (#:address ,label))))) ;; FIXME 64bit ;;; 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 "mv_____%" r1 ",%" r0))))) ;;; 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 "mv_____%" r0 ",%" r1))))) ;;; zero-extend 8-bit in register r (define (riscv64:byte-r info) (let ((r (get-r info))) `((,(string-append "ext.b__%" r))))) ;;; sign-extend 8-bit in register r (define (riscv64:byte-signed-r info) (let ((r (get-r info))) `((,(string-append "sext.b_%" r))))) ;;; zero-extend 16-bit in register r (define (riscv64:word-r info) (let ((r (get-r info))) `((,(string-append "ext.h__%" r))))) ;;; sign-extend 16-bit in register r (define (riscv64:word-signed-r info) (let ((r (get-r info))) `((,(string-append "sext.h_%" r))))) ;;; zero-extend 32-bit in register r (define (riscv64:long-r info) (let ((r (get-r info))) `((,(string-append "ext.w__%" r))))) ;;; sign-extend 32-bit in register r (define (riscv64:long-signed-r info) (let ((r (get-r info))) `((,(string-append "sext.w_%" r))))) ;;; unconditional jump to label (define (riscv64:jump info label) `(("j.a____$i32 " (#:address ,label)))) ;;;; Flag setters ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; test if a register is zero, set z flag accordingly ;;; see also test-r (define (riscv64:r-zero? info) (let ((r (car (if (pair? (.allocated info)) (.allocated info) (.registers info))))) `((,(string-append "mv_____%" %condregx ",%" r)) ,(riscv64:li %condregy 0)))) ;;; test register r against 0 and set flags ;;; this is used for jump-* and cc?->r: ;;; z (both) ;;; g ge l le (signed) ;;; a ae b be (unsigned) (define (riscv64:test-r info) (let ((r (get-r info))) `((,(string-append "mv_____%" %condregx ",%" r)) ,(riscv64:li %condregy 0)))) ;;; negate zero flag (define (riscv64:xor-zf info) '(("cond.nz"))) ;;; compare register to immediate value and set flags (see test-r) (define (riscv64:r-cmp-value info v) (let ((r (get-r info))) `((,(string-append "mv_____%" %condregx ",%" r)) ,(riscv64:li %condregy v)))) ;;; compare register to another register and set flags (see test-r) (define (riscv64:r0-cmp-r1 info) (let ((r0 (get-r0 info)) (r1 (get-r1 info))) `((,(string-append "mv_____%" %condregx ",%" r0)) (,(string-append "mv_____%" %condregy ",%" r1))))) ;;;; Flag users ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; flag-based conditional jumps (equality) (define (riscv64:jump-nz info label) `(("jne.a__$i32" (#:address ,label)))) (define (riscv64:jump-z info label) `(("jeq.a__$i32" (#:address ,label)))) ; assuming the result was properly zero/sign-extended, this is the same as a ; normal jump-z (define (riscv64:jump-byte-z info label) `(("jeq.a__$i32" (#:address ,label)))) ;;; zero flag to register (define (riscv64:zf->r info) (let ((r (get-r info))) `((,(string-append "seq____%" r))))) ;;; boolean: r := !e (define (riscv64:r-negate info) (let ((r (get-r info))) `((,(string-append "seq____%" r))))) ;; flag-based conditional setters (signed) (define (riscv64:g?->r info) (let ((r (get-r info))) `((,(string-append "sgt____%" r))))) (define (riscv64:ge?->r info) (let ((r (get-r info))) `((,(string-append "sge____%" r))))) (define (riscv64:l?->r info) (let ((r (get-r info))) `((,(string-append "slt____%" r))))) (define (riscv64:le?->r info) (let ((r (get-r info))) `((,(string-append "sle____%" r))))) ;; flag-based conditional setters (unsigned) (define (riscv64:a?->r info) (let ((r (get-r info))) `((,(string-append "sgtu___%" r))))) (define (riscv64:ae?->r info) (let ((r (get-r info))) `((,(string-append "sgeu___%" r))))) (define (riscv64:b?->r info) (let ((r (get-r info))) `((,(string-append "sltu___%" r))))) (define (riscv64:be?->r info) (let ((r (get-r info))) `((,(string-append "sleu___%" r))))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; 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 "sb_____%" r0 ",0(%" r1 ")"))))) ;;; load word at label into register r (define (riscv64:label-mem->r info label) (let ((r (get-r info))) `((,(string-append "li_____%" %tmpreg1 ",$i32") (#:address ,label)) (,(string-append "ld_____%" r ",0(%" %tmpreg1 ")"))))) ;; FIXME 64bit ;;; read 8-bit (and zero-extend) from address in register r into register r (define (riscv64:byte-mem->r info) (let ((r (get-r info))) `((,(string-append "lbu____%" r ",0(%" r ")"))))) ;;; read 16-bit (and zero-extend) from address in register r into register r (define (riscv64:word-mem->r info) (let ((r (get-r info))) `((,(string-append "lhu____%" r ",0(%" r ")"))))) ;;; read 32-bit (and zero-extend) from address in register r into register r (define (riscv64:long-mem->r info) (let ((r (get-r info))) `((,(string-append "lwu____%" r ",0(%" r ")"))))) ;;; read 64-bit from address in register r into register r (define (riscv64:mem->r info) (let ((r (get-r info))) `((,(string-append "ld_____%" r ",0(%" r ")"))))) (define (riscv64:local-add info n v) (let ((n (- 0 (* 8 n)))) `((,(string-append "li_____%" %tmpreg1 ",$i32") (#:immediate ,n)) (,(string-append "add____%" %tmpreg1 ",%" %tmpreg1 ",%fp")) (,(string-append "ld_____%" %tmpreg2 ",0(%" %tmpreg1 ")")) ,(riscv64:addi %tmpreg2 %tmpreg2 v) (,(string-append "sd_____%" %tmpreg2 ",0(%" %tmpreg1 ")"))))) (define (riscv64:label-mem-add info label v) `((,(string-append "li_____%" %tmpreg1 ",$i32") (#:address ,label)) (,(string-append "ld_____%" %tmpreg2 ",0(%" %tmpreg1 ")")) ,(riscv64:addi %tmpreg2 %tmpreg2 v) (,(string-append "sd_____%" %tmpreg2 ",0(%" %tmpreg1 ")")))) ;; no-operation (define (riscv64:nop info) '(("nop"))) ;; swap the contents of register r0 and r1 (define (riscv64:swap-r0-r1 info) (let ((r0 (get-r0 info)) (r1 (get-r1 info))) `((,(string-append "mv_____%" %tmpreg1 ",%" r1)) (,(string-append "mv_____%" r1 ",%" r0)) (,(string-append "mv_____%" r0 ",%" %tmpreg1))))) ;;; write 8-bit from register r to memory at the label (define (riscv64:r->byte-label info label) (let ((r (get-r info))) `((,(string-append "li_____%" %tmpreg1 ",$i32") (#:address ,label)) (,(string-append "sb_____%" r ",0(%" %tmpreg1 ")"))))) ;; FIXME 64bit ;;; write 16-bit from register r to memory at the label (define (riscv64:r->word-label info label) (let ((r (get-r info))) `((,(string-append "li_____%" %tmpreg1 ",$i32") (#:address ,label)) (,(string-append "sh_____%" r ",0(%" %tmpreg1 ")"))))) ;; FIXME 64bit ;;; write 32-bit from register r to memory at the label (define (riscv64:r->long-label info label) (let ((r (get-r info))) `((,(string-append "li_____%" %tmpreg1 ",$i32") (#:address ,label)) (,(string-append "sw_____%" r ",0(%" %tmpreg1 ")"))))) ;; FIXME 64bit ;;; write 64-bit from register r to memory at the label (define (riscv64:r->label info label) (let ((r (get-r info))) `((,(string-append "li_____%" %tmpreg1 ",$i32") (#:address ,label)) (,(string-append "sd_____%" r ",0(%" %tmpreg1 ")"))))) ;; FIXME 64bit ;;; ALU r0 := r0 * r1 (define (riscv64:r0*r1 info) (let ((r0 (get-r0 info)) (r1 (get-r1 info))) `((,(string-append "mul____%" r0 ",%" r0 ",%" r1))))) ;;; bitwise r0 := r0 << r1 (define (riscv64:r0<> r1 (logical, so shift in zero bits) (define (riscv64:r0>>r1 info) (let ((r0 (get-r0 info)) (r1 (get-r1 info))) `((,(string-append "srl____%" r0 ",%" r0 ",%" r1))))) ;;; bitwise r0 := r0 & r1 (define (riscv64:r0-and-r1 info) (let ((r0 (get-r0 info)) (r1 (get-r1 info))) `((,(string-append "and____%" r0 ",%" r0 ",%" r1))))) ;;; bitwise r0 := r0 | r1 (define (riscv64:r0-or-r1 info) (let ((r0 (get-r0 info)) (r1 (get-r1 info))) `((,(string-append "or_____%" r0 ",%" r0 ",%" r1))))) ;;; bitwise r := r & imm (define (riscv64:r-and info n) (let ((r (get-r info))) `(,(riscv64:li %tmpreg1 n) (,(string-append "and____%" r ",%" r ",%" %tmpreg1))))) ;;; bitwise r0 := r0 ^ r1 (define (riscv64:r0-xor-r1 info) (let ((r0 (get-r0 info)) (r1 (get-r1 info))) `((,(string-append "xor____%" r0 ",%" r0 ",%" r1))))) ;;; ALU r0 := r0 / r1 (define (riscv64:r0/r1 info signed?) (let ((r0 (get-r0 info)) (r1 (get-r1 info))) `((,(string-append "div____%" r0 ",%" r0 ",%" r1))))) ;;; ALU r0 := r0 % r1 (define (riscv64:r0%r1 info signed?) (let ((r0 (get-r0 info)) (r1 (get-r1 info))) `((,(string-append "rem____%" r0 ",%" r0 ",%" r1))))) ;;; 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 "sb_____%" r0 ",0(%" r1 ")"))))) ;;; 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 "sh_____%" r0 ",0(%" r1 ")"))))) ;;; 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 "sw_____%" r0 ",0(%" r1 ")"))))) ;;; 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 "sd_____%" r0 ",0(%" r1 ")"))))) ;;; push register to stack (define (riscv64:push-register info r) `((,(string-append "push___%" r)))) ;;; push register r0 to stack (see also push-register) (define (riscv64:push-r0 info) (let ((r0 (get-r0 info))) `((,(string-append "push___%" r0))))) ;;; pop register from stack (define (riscv64:pop-register info r) `((,(string-append "pop____%" r)))) ;;; pop register r0 from stack (see also pop-register) (define (riscv64:pop-r0 info) (let ((r0 (get-r0 info))) `((,(string-append "pop____%" r0))))) ;;; get function return value (define (riscv64:return->r info) (let ((r (car (.allocated info)))) (if (equal? r %retreg) '() `((,(string-append "mv_____%" r ",%" %retreg)))))) ;;; bitwise r := r + r (doubling) (define (riscv64:r+r info) (let ((r (get-r info))) `((,(string-append "add____%" r ",%" r ",%" r))))) ;;; bitwise r := ~r (define (riscv64:not-r info) (let ((r (get-r info))) `((,(string-append "not____%" r ",%" r))))) ;;; 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 "lb_____%" %tmpreg1 ",0(%" r0 ")")) (,(string-append "sb_____%" %tmpreg1 ",0(%" r1 ")"))))) ;;; 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 "lh_____%" %tmpreg1 ",0(%" r0 ")")) (,(string-append "sh_____%" %tmpreg1 ",0(%" r1 ")"))))) ;;; 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 "lw_____%" %tmpreg1 ",0(%" r0 ")")) (,(string-append "sw_____%" %tmpreg1 ",0(%" r1 ")"))))) ;;; 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 "ld_____%" %tmpreg1 ",0(%" r0 ")")) (,(string-append "sd_____%" %tmpreg1 ",0(%" r1 ")"))))) ;;; 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 "sb_____%" r ",0(%" %tmpreg1 ")"))))) ;;; 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 "sh_____%" r ",0(%" %tmpreg1 ")"))))) ;;; 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 "sw_____%" r ",0(%" %tmpreg1 ")"))))) ;;; 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 "sd_____%" r ",0(%" %tmpreg1 ")"))))) ;;; 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 "sd_____%" r ",0(%" %tmpreg1 ")"))))) ;;; 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 "ld_____%" %tmpreg1 ",0(%sp)")) (,(string-append "sd_____%" r ",0(%sp)")) (,(string-append "mv_____%" r ",%" %tmpreg1))))) ;;; 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 "ld_____%" %tmpreg1 ",0(%sp)")) (,(string-append "sd_____%" r0 ",0(%sp)")) (,(string-append "mv_____%" r0 ",%" %tmpreg1))))) ;;; 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 "mv_____%" r1 ",%" r2)))) `((,(string-append "pop____%" r0)) (,(string-append "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) (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) ))