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circom/ports/c/buildasm/cmpops.asm.ejs

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<% function signL(reg, label_pos, label_neg) { %>
<% for (let i=n64-1; i>=0; i--) { %>
mov rax, [<%=reg%> + <%= 8+(i*8) %>]
cmp [half + <%= (i*8) %>], rax ; comare with (q-1)/2
jc <%=label_neg%> ; half<rax => e1-e2 is neg => e1 < e2
<% if (i>0) { %>
jnz <%=label_pos%> ; half>rax => e1 -e2 is pos => e1 > e2
<% } else { %>
jmp <%=label_pos%>
<% } %>
<% } %>
<% } %>
;;;;;;;;;;;;;;;;;;;;;;
; rgt - Raw Greater Than
;;;;;;;;;;;;;;;;;;;;;;
; returns in ax 1 id *rsi > *rdx
; Params:
; rsi <= Pointer to element 1
; rdx <= Pointer to element 2
; rax <= Return 1 or 0
; Modified Registers:
; r8, r9, rax
;;;;;;;;;;;;;;;;;;;;;;
<%=name%>_rgt:
mov r8, [rsi]
mov r9, [rdx]
bt r8, 63 ; Check if is short first operand
jc rgt_l1
bt r9, 63 ; Check if is short second operand
jc rgt_s1l2
rgt_s1s2: ; Both operands are short
cmp r8d, r9d
jg rgt_ret1
jmp rgt_ret0
rgt_l1:
bt r9, 63 ; Check if is short second operand
jc rgt_l1l2
;;;;;;;;
rgt_l1s2:
bt r8, 62 ; check if montgomery first
jc rgt_l1ms2
rgt_l1ns2:
<%= global.toLong_b() %>
jmp rgtL1L2
rgt_l1ms2:
<%= global.toLong_b() %>
<%= global.fromMont_a() %>
jmp rgtL1L2
;;;;;;;;
rgt_s1l2:
bt r9, 62 ; check if montgomery second
jc rgt_s1l2m
rgt_s1l2n:
<%= global.toLong_a() %>
jmp rgtL1L2
rgt_s1l2m:
<%= global.toLong_a() %>
<%= global.fromMont_b() %>
jmp rgtL1L2
;;;;
rgt_l1l2:
bt r8, 62 ; check if montgomery first
jc rgt_l1ml2
rgt_l1nl2:
bt r9, 62 ; check if montgomery second
jc rgt_l1nl2m
rgt_l1nl2n:
jmp rgtL1L2
rgt_l1nl2m:
<%= global.fromMont_b() %>
jmp rgtL1L2
rgt_l1ml2:
bt r9, 62 ; check if montgomery second
jc rgt_l1ml2m
rgt_l1ml2n:
<%= global.fromMont_a() %>
jmp rgtL1L2
rgt_l1ml2m:
<%= global.fromMont_a() %>
<%= global.fromMont_b() %>
jmp rgtL1L2
;;;;;;
; rgtL1L2
;;;;;;
rgtL1L2:
<%= signL("rsi", "rgtl1l2_p1", "rgtl1l2_n1") %>
rgtl1l2_p1:
<%= signL("rdx", "rgtRawL1L2", "rgt_ret1") %>
rgtl1l2_n1:
<%= signL("rdx", "rgt_ret0", "rgtRawL1L2") %>
rgtRawL1L2:
<% for (let i=n64-1; i>=0; i--) { %>
mov rax, [rsi + <%= 8+(i*8) %>]
cmp [rdx + <%= 8+(i*8) %>], rax ; comare with (q-1)/2
jc rgt_ret1 ; rsi<rdx => 1st > 2nd
<% if (i>0) { %>
jnz rgt_ret0
<% } %>
<% } %>
rgt_ret0:
xor rax, rax
ret
rgt_ret1:
mov rax, 1
ret
;;;;;;;;;;;;;;;;;;;;;;
; rlt - Raw Less Than
;;;;;;;;;;;;;;;;;;;;;;
; returns in ax 1 id *rsi > *rdx
; Params:
; rsi <= Pointer to element 1
; rdx <= Pointer to element 2
; rax <= Return 1 or 0
; Modified Registers:
; r8, r9, rax
;;;;;;;;;;;;;;;;;;;;;;
<%=name%>_rlt:
mov r8, [rsi]
mov r9, [rdx]
bt r8, 63 ; Check if is short first operand
jc rlt_l1
bt r9, 63 ; Check if is short second operand
jc rlt_s1l2
rlt_s1s2: ; Both operands are short
cmp r8d, r9d
jl rlt_ret1
jmp rlt_ret0
rlt_l1:
bt r9, 63 ; Check if is short second operand
jc rlt_l1l2
;;;;;;;;
rlt_l1s2:
bt r8, 62 ; check if montgomery first
jc rlt_l1ms2
rlt_l1ns2:
<%= global.toLong_b() %>
jmp rltL1L2
rlt_l1ms2:
<%= global.toLong_b() %>
<%= global.fromMont_a() %>
jmp rltL1L2
;;;;;;;;
rlt_s1l2:
bt r9, 62 ; check if montgomery second
jc rlt_s1l2m
rlt_s1l2n:
<%= global.toLong_a() %>
jmp rltL1L2
rlt_s1l2m:
<%= global.toLong_a() %>
<%= global.fromMont_b() %>
jmp rltL1L2
;;;;
rlt_l1l2:
bt r8, 62 ; check if montgomery first
jc rlt_l1ml2
rlt_l1nl2:
bt r9, 62 ; check if montgomery second
jc rlt_l1nl2m
rlt_l1nl2n:
jmp rltL1L2
rlt_l1nl2m:
<%= global.fromMont_b() %>
jmp rltL1L2
rlt_l1ml2:
bt r9, 62 ; check if montgomery second
jc rlt_l1ml2m
rlt_l1ml2n:
<%= global.fromMont_a() %>
jmp rltL1L2
rlt_l1ml2m:
<%= global.fromMont_a() %>
<%= global.fromMont_b() %>
jmp rltL1L2
;;;;;;
; rltL1L2
;;;;;;
rltL1L2:
<%= signL("rsi", "rltl1l2_p1", "rltl1l2_n1") %>
rltl1l2_p1:
<%= signL("rdx", "rltRawL1L2", "rlt_ret0") %>
rltl1l2_n1:
<%= signL("rdx", "rlt_ret1", "rltRawL1L2") %>
rltRawL1L2:
<% for (let i=n64-1; i>=0; i--) { %>
mov rax, [rsi + <%= 8+(i*8) %>]
cmp [rdx + <%= 8+(i*8) %>], rax ; comare with (q-1)/2
jc rlt_ret0 ; rsi<rdx => 1st > 2nd
jnz rlt_ret1
<% } %>
rlt_ret0:
xor rax, rax
ret
rlt_ret1:
mov rax, 1
ret
;;;;;;;;;;;;;;;;;;;;;;
; req - Raw Eq
;;;;;;;;;;;;;;;;;;;;;;
; returns in ax 1 id *rsi == *rdx
; Params:
; rsi <= Pointer to element 1
; rdx <= Pointer to element 2
; rax <= Return 1 or 0
; Modified Registers:
; r8, r9, rax
;;;;;;;;;;;;;;;;;;;;;;
<%=name%>_req:
mov r8, [rsi]
mov r9, [rdx]
bt r8, 63 ; Check if is short first operand
jc req_l1
bt r9, 63 ; Check if is short second operand
jc req_s1l2
req_s1s2: ; Both operands are short
cmp r8d, r9d
je req_ret1
jmp req_ret0
req_l1:
bt r9, 63 ; Check if is short second operand
jc req_l1l2
;;;;;;;;
req_l1s2:
bt r8, 62 ; check if montgomery first
jc req_l1ms2
req_l1ns2:
<%= global.toLong_b() %>
jmp reqL1L2
req_l1ms2:
<%= global.toMont_b() %>
jmp reqL1L2
;;;;;;;;
req_s1l2:
bt r9, 62 ; check if montgomery second
jc req_s1l2m
req_s1l2n:
<%= global.toLong_a() %>
jmp reqL1L2
req_s1l2m:
<%= global.toMont_a() %>
jmp reqL1L2
;;;;
req_l1l2:
bt r8, 62 ; check if montgomery first
jc req_l1ml2
req_l1nl2:
bt r9, 62 ; check if montgomery second
jc req_l1nl2m
req_l1nl2n:
jmp reqL1L2
req_l1nl2m:
<%= global.toMont_a() %>
jmp reqL1L2
req_l1ml2:
bt r9, 62 ; check if montgomery second
jc req_l1ml2m
req_l1ml2n:
<%= global.toMont_b() %>
jmp reqL1L2
req_l1ml2m:
jmp reqL1L2
;;;;;;
; eqL1L2
;;;;;;
reqL1L2:
<% for (let i=0; i<n64; i++) { %>
mov rax, [rsi + <%= 8+(i*8) %>]
cmp [rdx + <%= 8+(i*8) %>], rax
jne req_ret0 ; rsi<rdi => 1st > 2nd
<% } %>
req_ret1:
mov rax, 1
ret
req_ret0:
xor rax, rax
ret
;;;;;;;;;;;;;;;;;;;;;;
; gt
;;;;;;;;;;;;;;;;;;;;;;
; Compares two elements of any kind
; Params:
; rsi <= Pointer to element 1
; rdx <= Pointer to element 2
; rdi <= Pointer to result can be zero or one.
; Modified Registers:
; rax, rcx
;;;;;;;;;;;;;;;;;;;;;;
<%=name%>_gt:
call <%=name%>_rgt
mov [rdi], rax
ret
;;;;;;;;;;;;;;;;;;;;;;
; lt
;;;;;;;;;;;;;;;;;;;;;;
; Compares two elements of any kind
; Params:
; rsi <= Pointer to element 1
; rdx <= Pointer to element 2
; rdi <= Pointer to result can be zero or one.
; Modified Registers:
; rax, rcx
;;;;;;;;;;;;;;;;;;;;;;
<%=name%>_lt:
call <%=name%>_rlt
mov [rdi], rax
ret
;;;;;;;;;;;;;;;;;;;;;;
; eq
;;;;;;;;;;;;;;;;;;;;;;
; Compares two elements of any kind
; Params:
; rsi <= Pointer to element 1
; rdx <= Pointer to element 2
; rdi <= Pointer to result can be zero or one.
; Modified Registers:
; rax, rcx
;;;;;;;;;;;;;;;;;;;;;;
<%=name%>_eq:
call <%=name%>_req
mov [rdi], rax
ret
;;;;;;;;;;;;;;;;;;;;;;
; neq
;;;;;;;;;;;;;;;;;;;;;;
; Compares two elements of any kind
; Params:
; rsi <= Pointer to element 1
; rdx <= Pointer to element 2
; rdi <= Pointer to result can be zero or one.
; Modified Registers:
; rax, rcx
;;;;;;;;;;;;;;;;;;;;;;
<%=name%>_neq:
call <%=name%>_req
xor rax, 1
mov [rdi], rax
ret
;;;;;;;;;;;;;;;;;;;;;;
; geq
;;;;;;;;;;;;;;;;;;;;;;
; Compares two elements of any kind
; Params:
; rsi <= Pointer to element 1
; rdx <= Pointer to element 2
; rdi <= Pointer to result can be zero or one.
; Modified Registers:
; rax, rcx
;;;;;;;;;;;;;;;;;;;;;;
<%=name%>_geq:
call <%=name%>_rlt
xor rax, 1
mov [rdi], rax
ret
;;;;;;;;;;;;;;;;;;;;;;
; leq
;;;;;;;;;;;;;;;;;;;;;;
; Compares two elements of any kind
; Params:
; rsi <= Pointer to element 1
; rdx <= Pointer to element 2
; rdi <= Pointer to result can be zero or one.
; Modified Registers:
; rax, rcx
;;;;;;;;;;;;;;;;;;;;;;
<%=name%>_leq:
call <%=name%>_rgt
xor rax, 1
mov [rdi], rax
ret