; w65c02 assembly code for 'test_uword_lte'
; generated by prog8.codegen.cpu6502.ProgramAndVarsGen on 2024-03-13T21:14:44
; assembler syntax is for the 64tasm cross-assembler
; output options: output=PRG launcher=BASIC zp=DONTUSE

.cpu  'w65c02'
.enc  'none'
P8ZP_SCRATCH_B1 = 122
P8ZP_SCRATCH_REG = 123
P8ZP_SCRATCH_W1 = 124    ; word
P8ZP_SCRATCH_W2 = 126    ; word
.weak
.endweak
; ---- basic program with sys call ----
* = $0801
	.word  (+), 2024
	.null  $9e, format(' %d ', prog8_entrypoint), $3a, $8f, ' prog8'
+	.word  0
prog8_entrypoint	; assembly code starts here
	jsr  sys.init_system_phase2
	lda  #4
	sta  $01
	jsr  p8b_main.p8s_start
	jmp  sys.cleanup_at_exit

; ---- block: 'p8b_main' ----
p8b_main	.proc
	; source: test_uword_lte.p8:8   main {

; non-zeropage variables without initialization value
	.section BSS
p8v_comparison	.word  ?
p8v_success	.byte  ?
	.send BSS
; non-zeropage variables
p8v_datatype	; PETSCII:"uword"
	.byte  $55, $57, $4f, $52, $44, $00

	; source: test_uword_lte.p8:9   ubyte success = 0
	; source: test_uword_lte.p8:10   str datatype = "uword"
	; source: test_uword_lte.p8:11   uword @shared comparison
	; source: test_uword_lte.p8:13   sub start() {

p8s_start	.proc
; program startup initialization
	cld
	tsx
	stx  prog8_lib.orig_stackpointer    ; required for sys.exit()
	.if  prog8_bss_section_size>0
	; reset all variables in BSS section to zero
	lda  #<prog8_bss_section_start
	ldy  #>prog8_bss_section_start
	sta  P8ZP_SCRATCH_W1
	sty  P8ZP_SCRATCH_W1+1
	ldx  #<prog8_bss_section_size
	ldy  #>prog8_bss_section_size
	lda  #0
	jsr  prog8_lib.memset
	.endif
	jsr  p8b_main.prog8_init_vars
+        
	clv
	clc
; statements
	; source: test_uword_lte.p8:14   txt.print("\nless-equal tests for: ")
	ldy  #>prog8_interned_strings.string_1
	lda  #<prog8_interned_strings.string_1
	jsr  txt.print
	; source: test_uword_lte.p8:15   txt.print(datatype)
	ldy  #>p8b_main.p8v_datatype
	lda  #<p8b_main.p8v_datatype
	jsr  txt.print
	; source: library:/prog8lib/cx16/textio.p8:29   chrout('\n')
	lda  #13
	jsr  txt.chrout
	; source: test_uword_lte.p8:17   test_stack.test()
	jsr  test_stack.test
	; source: test_uword_lte.p8:18   txt.print("\n<=number: ")
	ldy  #>prog8_interned_strings.string_2
	lda  #<prog8_interned_strings.string_2
	jsr  txt.print
	; source: test_uword_lte.p8:19   test_cmp_number()
	jsr  p8b_main.p8s_test_cmp_number
	; source: test_uword_lte.p8:20   txt.print("\n<=var: ")
	ldy  #>prog8_interned_strings.string_3
	lda  #<prog8_interned_strings.string_3
	jsr  txt.print
	; source: test_uword_lte.p8:21   test_cmp_var()
	jsr  p8b_main.p8s_test_cmp_var
	; source: test_uword_lte.p8:22   txt.print("\n<=array[]: ")
	ldy  #>prog8_interned_strings.string_4
	lda  #<prog8_interned_strings.string_4
	jsr  txt.print
	; source: test_uword_lte.p8:23   test_cmp_array()
	jsr  p8b_main.p8s_test_cmp_array
	; source: test_uword_lte.p8:24   txt.print("\n<=expr: ")
	ldy  #>prog8_interned_strings.string_5
	lda  #<prog8_interned_strings.string_5
	jsr  txt.print
	; source: test_uword_lte.p8:25   test_cmp_expr()
	jsr  p8b_main.p8s_test_cmp_expr
	; source: test_uword_lte.p8:26   test_stack.test()
	jmp  test_stack.test
	; source: test_uword_lte.p8:13   sub start() {
; variables
	.section BSS
	.send BSS

	.pend
	; source: test_uword_lte.p8:29   sub verify_success(ubyte expected) {

p8s_verify_success	.proc
; simple int arg(s) passed via register(s)
	sta  p8v_expected
; statements
	; source: test_uword_lte.p8:30   if success==expected {
	lda  p8b_main.p8v_success
	cmp  p8v_expected
	bne  label_asm_2_else
	; source: test_uword_lte.p8:31   txt.print("ok")
	lda  #$4f
	jsr  txt.chrout
	lda  #$4b
	jsr  txt.chrout
	bra  label_asm_1_afterif
label_asm_2_else
	; source: test_uword_lte.p8:33   txt.print(" **failed** ")
	ldy  #>prog8_interned_strings.string_7
	lda  #<prog8_interned_strings.string_7
	jsr  txt.print
	; source: test_uword_lte.p8:34   txt.print_ub(success)
	lda  p8b_main.p8v_success
	jsr  txt.print_ub
	; source: test_uword_lte.p8:35   txt.print(" success, expected ")
	ldy  #>prog8_interned_strings.string_8
	lda  #<prog8_interned_strings.string_8
	jsr  txt.print
	; source: test_uword_lte.p8:36   txt.print_ub(expected)
	lda  p8v_expected
	jsr  txt.print_ub
label_asm_1_afterif
	; source: test_uword_lte.p8:29   sub verify_success(ubyte expected) {
	rts
; variables
	.section BSS
	.send BSS

; non-zeropage variables without initialization value
	.section BSS
p8v_expected	.byte  ?
	.send BSS
	.pend
	; source: test_uword_lte.p8:58   sub fail_uword(uword idx) {

p8s_fail_uword	.proc
; simple int arg(s) passed via register(s)
	sta  p8v_idx
	sty  p8v_idx+1
; statements
	; source: test_uword_lte.p8:59   txt.print(" **fail#")
	ldy  #>prog8_interned_strings.string_9
	lda  #<prog8_interned_strings.string_9
	jsr  txt.print
	; source: test_uword_lte.p8:60   txt.print_uw(idx)
	ldy  p8v_idx+1
	lda  p8v_idx
	jsr  txt.print_uw
	; source: test_uword_lte.p8:61   txt.print(" **")
	ldy  #>prog8_interned_strings.string_10
	lda  #<prog8_interned_strings.string_10
	jmp  txt.print
	; source: test_uword_lte.p8:58   sub fail_uword(uword idx) {
; variables
	.section BSS
	.send BSS

; non-zeropage variables without initialization value
	.section BSS
p8v_idx	.word  ?
	.send BSS
	.pend
	; source: test_uword_lte.p8:71   sub test_cmp_number() {

p8s_test_cmp_number	.proc
; statements
	; source: test_uword_lte.p8:72   uword @shared x
	stz  p8v_x
	stz  p8v_x+1
	; source: test_uword_lte.p8:73   success = 0
	stz  p8b_main.p8v_success
	; source: test_uword_lte.p8:74   x=0
	stz  p8v_x
	stz  p8v_x+1
	; source: test_uword_lte.p8:76   if x<=0
	lda  p8v_x
	ora  p8v_x+1
	beq  p8l_lbl1a
	; source: test_uword_lte.p8:78   goto skip1a
	bra  p8l_skip1a
	; source: test_uword_lte.p8:79   lbl1a:   success++
p8l_lbl1a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:80   skip1a:
p8l_skip1a
	; source: test_uword_lte.p8:82   cx16.r3 = &lbl1b
	lda  #<p8l_lbl1b
	ldy  #>p8l_lbl1b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:83   if x<=0
	lda  p8v_x
	ora  p8v_x+1
	bne  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:85   goto skip1b
	bra  p8l_skip1b
	; source: test_uword_lte.p8:86   lbl1b:   success++
p8l_lbl1b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:87   skip1b:
p8l_skip1b
	; source: test_uword_lte.p8:89   if x<=0
	lda  p8v_x
	ora  p8v_x+1
	bne  label_asm_3_afterif
	; source: test_uword_lte.p8:90   success++
	inc  p8b_main.p8v_success
label_asm_3_afterif
	; source: test_uword_lte.p8:93   if x<=0
	lda  p8v_x
	ora  p8v_x+1
	bne  label_asm_5_else
	; source: test_uword_lte.p8:94   success++
	inc  p8b_main.p8v_success
	bra  label_asm_4_afterif
label_asm_5_else
	; source: test_uword_lte.p8:96   cx16.r0L++
	inc  cx16.r0L
label_asm_4_afterif
	; source: test_uword_lte.p8:99   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl2a
	; source: test_uword_lte.p8:101   goto skip2a
	bra  p8l_skip2a
	; source: test_uword_lte.p8:102   lbl2a:   success++
p8l_lbl2a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:103   skip2a:
p8l_skip2a
	; source: test_uword_lte.p8:105   cx16.r3 = &lbl2b
	lda  #<p8l_lbl2b
	ldy  #>p8l_lbl2b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:106   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:108   goto skip2b
	bra  p8l_skip2b
	; source: test_uword_lte.p8:109   lbl2b:   success++
p8l_lbl2b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:110   skip2b:
p8l_skip2b
	; source: test_uword_lte.p8:112   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_6_afterif
	; source: test_uword_lte.p8:113   success++
	inc  p8b_main.p8v_success
label_asm_6_afterif
	; source: test_uword_lte.p8:116   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_8_else
	; source: test_uword_lte.p8:117   success++
	inc  p8b_main.p8v_success
	bra  label_asm_7_afterif
label_asm_8_else
	; source: test_uword_lte.p8:119   cx16.r0L++
	inc  cx16.r0L
label_asm_7_afterif
	; source: test_uword_lte.p8:122   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl3a
	; source: test_uword_lte.p8:124   goto skip3a
	bra  p8l_skip3a
	; source: test_uword_lte.p8:125   lbl3a:   success++
p8l_lbl3a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:126   skip3a:
p8l_skip3a
	; source: test_uword_lte.p8:128   cx16.r3 = &lbl3b
	lda  #<p8l_lbl3b
	ldy  #>p8l_lbl3b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:129   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:131   goto skip3b
	bra  p8l_skip3b
	; source: test_uword_lte.p8:132   lbl3b:   success++
p8l_lbl3b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:133   skip3b:
p8l_skip3b
	; source: test_uword_lte.p8:135   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_9_afterif
	; source: test_uword_lte.p8:136   success++
	inc  p8b_main.p8v_success
label_asm_9_afterif
	; source: test_uword_lte.p8:139   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_11_else
	; source: test_uword_lte.p8:140   success++
	inc  p8b_main.p8v_success
	bra  label_asm_10_afterif
label_asm_11_else
	; source: test_uword_lte.p8:142   cx16.r0L++
	inc  cx16.r0L
label_asm_10_afterif
	; source: test_uword_lte.p8:145   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl4a
	; source: test_uword_lte.p8:147   goto skip4a
	bra  p8l_skip4a
	; source: test_uword_lte.p8:148   lbl4a:   success++
p8l_lbl4a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:149   skip4a:
p8l_skip4a
	; source: test_uword_lte.p8:151   cx16.r3 = &lbl4b
	lda  #<p8l_lbl4b
	ldy  #>p8l_lbl4b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:152   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:154   goto skip4b
	bra  p8l_skip4b
	; source: test_uword_lte.p8:155   lbl4b:   success++
p8l_lbl4b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:156   skip4b:
p8l_skip4b
	; source: test_uword_lte.p8:158   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_12_afterif
	; source: test_uword_lte.p8:159   success++
	inc  p8b_main.p8v_success
label_asm_12_afterif
	; source: test_uword_lte.p8:162   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_14_else
	; source: test_uword_lte.p8:163   success++
	inc  p8b_main.p8v_success
	bra  label_asm_13_afterif
label_asm_14_else
	; source: test_uword_lte.p8:165   cx16.r0L++
	inc  cx16.r0L
label_asm_13_afterif
	; source: test_uword_lte.p8:167   x=1
	lda  #<1
	ldy  #>1
	sta  p8v_x
	sty  p8v_x+1
	
	; source: test_uword_lte.p8:169   if x<=0
	ora  p8v_x+1
	beq  p8l_lbl5a
	; source: test_uword_lte.p8:171   goto skip5a
	bra  p8l_skip5a
	; source: test_uword_lte.p8:172   lbl5a:   fail_uword(1)
p8l_lbl5a
	ldy  #>1
	lda  #<1
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:173   skip5a:
p8l_skip5a
	; source: test_uword_lte.p8:175   cx16.r3 = &lbl5b
	lda  #<p8l_lbl5b
	ldy  #>p8l_lbl5b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:176   if x<=0
	lda  p8v_x
	ora  p8v_x+1
	bne  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:178   goto skip5b
	bra  p8l_skip5b
	; source: test_uword_lte.p8:179   lbl5b:   fail_uword(2)
p8l_lbl5b
	ldy  #>2
	lda  #<2
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:180   skip5b:
p8l_skip5b
	; source: test_uword_lte.p8:182   if x<=0
	lda  p8v_x
	ora  p8v_x+1
	bne  label_asm_15_afterif
	; source: test_uword_lte.p8:183   fail_uword(3)
	ldy  #>3
	lda  #<3
	jsr  p8b_main.p8s_fail_uword
label_asm_15_afterif
	; source: test_uword_lte.p8:186   if x<=0
	lda  p8v_x
	ora  p8v_x+1
	bne  label_asm_17_else
	; source: test_uword_lte.p8:187   fail_uword(4)
	ldy  #>4
	lda  #<4
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_16_afterif
label_asm_17_else
	; source: test_uword_lte.p8:189   success++
	inc  p8b_main.p8v_success
label_asm_16_afterif
	; source: test_uword_lte.p8:192   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl6a
	; source: test_uword_lte.p8:194   goto skip6a
	bra  p8l_skip6a
	; source: test_uword_lte.p8:195   lbl6a:   success++
p8l_lbl6a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:196   skip6a:
p8l_skip6a
	; source: test_uword_lte.p8:198   cx16.r3 = &lbl6b
	lda  #<p8l_lbl6b
	ldy  #>p8l_lbl6b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:199   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:201   goto skip6b
	bra  p8l_skip6b
	; source: test_uword_lte.p8:202   lbl6b:   success++
p8l_lbl6b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:203   skip6b:
p8l_skip6b
	; source: test_uword_lte.p8:205   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_18_afterif
	; source: test_uword_lte.p8:206   success++
	inc  p8b_main.p8v_success
label_asm_18_afterif
	; source: test_uword_lte.p8:209   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_20_else
	; source: test_uword_lte.p8:210   success++
	inc  p8b_main.p8v_success
	bra  label_asm_19_afterif
label_asm_20_else
	; source: test_uword_lte.p8:212   cx16.r0L++
	inc  cx16.r0L
label_asm_19_afterif
	; source: test_uword_lte.p8:215   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl7a
	; source: test_uword_lte.p8:217   goto skip7a
	bra  p8l_skip7a
	; source: test_uword_lte.p8:218   lbl7a:   success++
p8l_lbl7a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:219   skip7a:
p8l_skip7a
	; source: test_uword_lte.p8:221   cx16.r3 = &lbl7b
	lda  #<p8l_lbl7b
	ldy  #>p8l_lbl7b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:222   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:224   goto skip7b
	bra  p8l_skip7b
	; source: test_uword_lte.p8:225   lbl7b:   success++
p8l_lbl7b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:226   skip7b:
p8l_skip7b
	; source: test_uword_lte.p8:228   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_21_afterif
	; source: test_uword_lte.p8:229   success++
	inc  p8b_main.p8v_success
label_asm_21_afterif
	; source: test_uword_lte.p8:232   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_23_else
	; source: test_uword_lte.p8:233   success++
	inc  p8b_main.p8v_success
	bra  label_asm_22_afterif
label_asm_23_else
	; source: test_uword_lte.p8:235   cx16.r0L++
	inc  cx16.r0L
label_asm_22_afterif
	; source: test_uword_lte.p8:238   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl8a
	; source: test_uword_lte.p8:240   goto skip8a
	bra  p8l_skip8a
	; source: test_uword_lte.p8:241   lbl8a:   success++
p8l_lbl8a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:242   skip8a:
p8l_skip8a
	; source: test_uword_lte.p8:244   cx16.r3 = &lbl8b
	lda  #<p8l_lbl8b
	ldy  #>p8l_lbl8b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:245   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:247   goto skip8b
	bra  p8l_skip8b
	; source: test_uword_lte.p8:248   lbl8b:   success++
p8l_lbl8b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:249   skip8b:
p8l_skip8b
	; source: test_uword_lte.p8:251   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_24_afterif
	; source: test_uword_lte.p8:252   success++
	inc  p8b_main.p8v_success
label_asm_24_afterif
	; source: test_uword_lte.p8:255   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_26_else
	; source: test_uword_lte.p8:256   success++
	inc  p8b_main.p8v_success
	bra  label_asm_25_afterif
label_asm_26_else
	; source: test_uword_lte.p8:258   cx16.r0L++
	inc  cx16.r0L
label_asm_25_afterif
	; source: test_uword_lte.p8:260   x=30464
	lda  #<$7700
	ldy  #>$7700
	sta  p8v_x
	sty  p8v_x+1
	
	; source: test_uword_lte.p8:262   if x<=0
	ora  p8v_x+1
	beq  p8l_lbl9a
	; source: test_uword_lte.p8:264   goto skip9a
	bra  p8l_skip9a
	; source: test_uword_lte.p8:265   lbl9a:   fail_uword(5)
p8l_lbl9a
	ldy  #>5
	lda  #<5
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:266   skip9a:
p8l_skip9a
	; source: test_uword_lte.p8:268   cx16.r3 = &lbl9b
	lda  #<p8l_lbl9b
	ldy  #>p8l_lbl9b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:269   if x<=0
	lda  p8v_x
	ora  p8v_x+1
	bne  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:271   goto skip9b
	bra  p8l_skip9b
	; source: test_uword_lte.p8:272   lbl9b:   fail_uword(6)
p8l_lbl9b
	ldy  #>6
	lda  #<6
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:273   skip9b:
p8l_skip9b
	; source: test_uword_lte.p8:275   if x<=0
	lda  p8v_x
	ora  p8v_x+1
	bne  label_asm_27_afterif
	; source: test_uword_lte.p8:276   fail_uword(7)
	ldy  #>7
	lda  #<7
	jsr  p8b_main.p8s_fail_uword
label_asm_27_afterif
	; source: test_uword_lte.p8:279   if x<=0
	lda  p8v_x
	ora  p8v_x+1
	bne  label_asm_29_else
	; source: test_uword_lte.p8:280   fail_uword(8)
	ldy  #>8
	lda  #<8
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_28_afterif
label_asm_29_else
	; source: test_uword_lte.p8:282   success++
	inc  p8b_main.p8v_success
label_asm_28_afterif
	; source: test_uword_lte.p8:285   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl10a
	; source: test_uword_lte.p8:287   goto skip10a
	bra  p8l_skip10a
	; source: test_uword_lte.p8:288   lbl10a:   fail_uword(9)
p8l_lbl10a
	ldy  #>9
	lda  #<9
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:289   skip10a:
p8l_skip10a
	; source: test_uword_lte.p8:291   cx16.r3 = &lbl10b
	lda  #<p8l_lbl10b
	ldy  #>p8l_lbl10b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:292   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:294   goto skip10b
	bra  p8l_skip10b
	; source: test_uword_lte.p8:295   lbl10b:   fail_uword(10)
p8l_lbl10b
	ldy  #>10
	lda  #<10
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:296   skip10b:
p8l_skip10b
	; source: test_uword_lte.p8:298   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_30_afterif
	; source: test_uword_lte.p8:299   fail_uword(11)
	ldy  #>11
	lda  #<11
	jsr  p8b_main.p8s_fail_uword
label_asm_30_afterif
	; source: test_uword_lte.p8:302   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_32_else
	; source: test_uword_lte.p8:303   fail_uword(12)
	ldy  #>12
	lda  #<12
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_31_afterif
label_asm_32_else
	; source: test_uword_lte.p8:305   success++
	inc  p8b_main.p8v_success
label_asm_31_afterif
	; source: test_uword_lte.p8:308   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl11a
	; source: test_uword_lte.p8:310   goto skip11a
	bra  p8l_skip11a
	; source: test_uword_lte.p8:311   lbl11a:   success++
p8l_lbl11a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:312   skip11a:
p8l_skip11a
	; source: test_uword_lte.p8:314   cx16.r3 = &lbl11b
	lda  #<p8l_lbl11b
	ldy  #>p8l_lbl11b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:315   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:317   goto skip11b
	bra  p8l_skip11b
	; source: test_uword_lte.p8:318   lbl11b:   success++
p8l_lbl11b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:319   skip11b:
p8l_skip11b
	; source: test_uword_lte.p8:321   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_33_afterif
	; source: test_uword_lte.p8:322   success++
	inc  p8b_main.p8v_success
label_asm_33_afterif
	; source: test_uword_lte.p8:325   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_35_else
	; source: test_uword_lte.p8:326   success++
	inc  p8b_main.p8v_success
	bra  label_asm_34_afterif
label_asm_35_else
	; source: test_uword_lte.p8:328   cx16.r0L++
	inc  cx16.r0L
label_asm_34_afterif
	; source: test_uword_lte.p8:331   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl12a
	; source: test_uword_lte.p8:333   goto skip12a
	bra  p8l_skip12a
	; source: test_uword_lte.p8:334   lbl12a:   success++
p8l_lbl12a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:335   skip12a:
p8l_skip12a
	; source: test_uword_lte.p8:337   cx16.r3 = &lbl12b
	lda  #<p8l_lbl12b
	ldy  #>p8l_lbl12b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:338   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:340   goto skip12b
	bra  p8l_skip12b
	; source: test_uword_lte.p8:341   lbl12b:   success++
p8l_lbl12b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:342   skip12b:
p8l_skip12b
	; source: test_uword_lte.p8:344   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_36_afterif
	; source: test_uword_lte.p8:345   success++
	inc  p8b_main.p8v_success
label_asm_36_afterif
	; source: test_uword_lte.p8:348   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_38_else
	; source: test_uword_lte.p8:349   success++
	inc  p8b_main.p8v_success
	bra  label_asm_37_afterif
label_asm_38_else
	; source: test_uword_lte.p8:351   cx16.r0L++
	inc  cx16.r0L
label_asm_37_afterif
	; source: test_uword_lte.p8:353   x=65535
	lda  #$ff
	sta  p8v_x
	sta  p8v_x+1
	
	; source: test_uword_lte.p8:355   if x<=0
	ora  p8v_x+1
	beq  p8l_lbl13a
	; source: test_uword_lte.p8:357   goto skip13a
	bra  p8l_skip13a
	; source: test_uword_lte.p8:358   lbl13a:   fail_uword(13)
p8l_lbl13a
	ldy  #>13
	lda  #<13
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:359   skip13a:
p8l_skip13a
	; source: test_uword_lte.p8:361   cx16.r3 = &lbl13b
	lda  #<p8l_lbl13b
	ldy  #>p8l_lbl13b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:362   if x<=0
	lda  p8v_x
	ora  p8v_x+1
	bne  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:364   goto skip13b
	bra  p8l_skip13b
	; source: test_uword_lte.p8:365   lbl13b:   fail_uword(14)
p8l_lbl13b
	ldy  #>14
	lda  #<14
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:366   skip13b:
p8l_skip13b
	; source: test_uword_lte.p8:368   if x<=0
	lda  p8v_x
	ora  p8v_x+1
	bne  label_asm_39_afterif
	; source: test_uword_lte.p8:369   fail_uword(15)
	ldy  #>15
	lda  #<15
	jsr  p8b_main.p8s_fail_uword
label_asm_39_afterif
	; source: test_uword_lte.p8:372   if x<=0
	lda  p8v_x
	ora  p8v_x+1
	bne  label_asm_41_else
	; source: test_uword_lte.p8:373   fail_uword(16)
	ldy  #>$10
	lda  #<$10
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_40_afterif
label_asm_41_else
	; source: test_uword_lte.p8:375   success++
	inc  p8b_main.p8v_success
label_asm_40_afterif
	; source: test_uword_lte.p8:378   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl14a
	; source: test_uword_lte.p8:380   goto skip14a
	bra  p8l_skip14a
	; source: test_uword_lte.p8:381   lbl14a:   fail_uword(17)
p8l_lbl14a
	ldy  #>$11
	lda  #<$11
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:382   skip14a:
p8l_skip14a
	; source: test_uword_lte.p8:384   cx16.r3 = &lbl14b
	lda  #<p8l_lbl14b
	ldy  #>p8l_lbl14b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:385   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:387   goto skip14b
	bra  p8l_skip14b
	; source: test_uword_lte.p8:388   lbl14b:   fail_uword(18)
p8l_lbl14b
	ldy  #>$12
	lda  #<$12
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:389   skip14b:
p8l_skip14b
	; source: test_uword_lte.p8:391   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_42_afterif
	; source: test_uword_lte.p8:392   fail_uword(19)
	ldy  #>$13
	lda  #<$13
	jsr  p8b_main.p8s_fail_uword
label_asm_42_afterif
	; source: test_uword_lte.p8:395   if x<=1
	ldy  #>1
	lda  #<1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_44_else
	; source: test_uword_lte.p8:396   fail_uword(20)
	ldy  #>$14
	lda  #<$14
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_43_afterif
label_asm_44_else
	; source: test_uword_lte.p8:398   success++
	inc  p8b_main.p8v_success
label_asm_43_afterif
	; source: test_uword_lte.p8:401   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl15a
	; source: test_uword_lte.p8:403   goto skip15a
	bra  p8l_skip15a
	; source: test_uword_lte.p8:404   lbl15a:   fail_uword(21)
p8l_lbl15a
	ldy  #>$15
	lda  #<$15
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:405   skip15a:
p8l_skip15a
	; source: test_uword_lte.p8:407   cx16.r3 = &lbl15b
	lda  #<p8l_lbl15b
	ldy  #>p8l_lbl15b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:408   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:410   goto skip15b
	bra  p8l_skip15b
	; source: test_uword_lte.p8:411   lbl15b:   fail_uword(22)
p8l_lbl15b
	ldy  #>$16
	lda  #<$16
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:412   skip15b:
p8l_skip15b
	; source: test_uword_lte.p8:414   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_45_afterif
	; source: test_uword_lte.p8:415   fail_uword(23)
	ldy  #>$17
	lda  #<$17
	jsr  p8b_main.p8s_fail_uword
label_asm_45_afterif
	; source: test_uword_lte.p8:418   if x<=30464
	ldy  #>$7700
	lda  #<$7700
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_47_else
	; source: test_uword_lte.p8:419   fail_uword(24)
	ldy  #>$18
	lda  #<$18
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_46_afterif
label_asm_47_else
	; source: test_uword_lte.p8:421   success++
	inc  p8b_main.p8v_success
label_asm_46_afterif
	; source: test_uword_lte.p8:424   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl16a
	; source: test_uword_lte.p8:426   goto skip16a
	bra  p8l_skip16a
	; source: test_uword_lte.p8:427   lbl16a:   success++
p8l_lbl16a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:428   skip16a:
p8l_skip16a
	; source: test_uword_lte.p8:430   cx16.r3 = &lbl16b
	lda  #<p8l_lbl16b
	ldy  #>p8l_lbl16b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:431   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:433   goto skip16b
	bra  p8l_skip16b
	; source: test_uword_lte.p8:434   lbl16b:   success++
p8l_lbl16b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:435   skip16b:
p8l_skip16b
	; source: test_uword_lte.p8:437   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_48_afterif
	; source: test_uword_lte.p8:438   success++
	inc  p8b_main.p8v_success
label_asm_48_afterif
	; source: test_uword_lte.p8:441   if x<=65535
	ldy  #>$ffff
	lda  #<$ffff
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_50_else
	; source: test_uword_lte.p8:442   success++
	inc  p8b_main.p8v_success
	bra  label_asm_49_afterif
label_asm_50_else
	; source: test_uword_lte.p8:444   cx16.r0L++
	inc  cx16.r0L
label_asm_49_afterif
	; source: test_uword_lte.p8:446   verify_success(46)
	lda  #$2e
	jmp  p8b_main.p8s_verify_success
	; source: test_uword_lte.p8:71   sub test_cmp_number() {
; variables
	.section BSS
	.send BSS

; non-zeropage variables without initialization value
	.section BSS
p8v_x	.word  ?
	.send BSS
	.pend
	; source: test_uword_lte.p8:448   sub test_cmp_var() {

p8s_test_cmp_var	.proc
; statements
	; source: test_uword_lte.p8:449   uword @shared x, value
	stz  p8v_x
	stz  p8v_x+1
	lda  p8v_x
	ldy  p8v_x+1
	sta  p8v_value
	sty  p8v_value+1
	; source: test_uword_lte.p8:450   success = 0
	stz  p8b_main.p8v_success
	; source: test_uword_lte.p8:451   x=0
	stz  p8v_x
	stz  p8v_x+1
	; source: test_uword_lte.p8:452   value=0
	stz  p8v_value
	stz  p8v_value+1
	; source: test_uword_lte.p8:454   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl1a
	; source: test_uword_lte.p8:456   goto skip1a
	bra  p8l_skip1a
	; source: test_uword_lte.p8:457   lbl1a:   success++
p8l_lbl1a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:458   skip1a:
p8l_skip1a
	; source: test_uword_lte.p8:460   cx16.r3 = &lbl1b
	lda  #<p8l_lbl1b
	ldy  #>p8l_lbl1b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:461   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:463   goto skip1b
	bra  p8l_skip1b
	; source: test_uword_lte.p8:464   lbl1b:   success++
p8l_lbl1b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:465   skip1b:
p8l_skip1b
	; source: test_uword_lte.p8:467   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_51_afterif
	; source: test_uword_lte.p8:468   success++
	inc  p8b_main.p8v_success
label_asm_51_afterif
	; source: test_uword_lte.p8:471   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_53_else
	; source: test_uword_lte.p8:472   success++
	inc  p8b_main.p8v_success
	bra  label_asm_52_afterif
label_asm_53_else
	; source: test_uword_lte.p8:474   cx16.r0L++
	inc  cx16.r0L
label_asm_52_afterif
	; source: test_uword_lte.p8:476   value=1
	lda  #<1
	ldy  #>1
	sta  p8v_value
	sty  p8v_value+1
	
	; source: test_uword_lte.p8:478   if x<=value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl2a
	; source: test_uword_lte.p8:480   goto skip2a
	bra  p8l_skip2a
	; source: test_uword_lte.p8:481   lbl2a:   success++
p8l_lbl2a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:482   skip2a:
p8l_skip2a
	; source: test_uword_lte.p8:484   cx16.r3 = &lbl2b
	lda  #<p8l_lbl2b
	ldy  #>p8l_lbl2b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:485   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:487   goto skip2b
	bra  p8l_skip2b
	; source: test_uword_lte.p8:488   lbl2b:   success++
p8l_lbl2b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:489   skip2b:
p8l_skip2b
	; source: test_uword_lte.p8:491   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_54_afterif
	; source: test_uword_lte.p8:492   success++
	inc  p8b_main.p8v_success
label_asm_54_afterif
	; source: test_uword_lte.p8:495   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_56_else
	; source: test_uword_lte.p8:496   success++
	inc  p8b_main.p8v_success
	bra  label_asm_55_afterif
label_asm_56_else
	; source: test_uword_lte.p8:498   cx16.r0L++
	inc  cx16.r0L
label_asm_55_afterif
	; source: test_uword_lte.p8:500   value=30464
	lda  #<$7700
	ldy  #>$7700
	sta  p8v_value
	sty  p8v_value+1
	
	; source: test_uword_lte.p8:502   if x<=value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl3a
	; source: test_uword_lte.p8:504   goto skip3a
	bra  p8l_skip3a
	; source: test_uword_lte.p8:505   lbl3a:   success++
p8l_lbl3a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:506   skip3a:
p8l_skip3a
	; source: test_uword_lte.p8:508   cx16.r3 = &lbl3b
	lda  #<p8l_lbl3b
	ldy  #>p8l_lbl3b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:509   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:511   goto skip3b
	bra  p8l_skip3b
	; source: test_uword_lte.p8:512   lbl3b:   success++
p8l_lbl3b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:513   skip3b:
p8l_skip3b
	; source: test_uword_lte.p8:515   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_57_afterif
	; source: test_uword_lte.p8:516   success++
	inc  p8b_main.p8v_success
label_asm_57_afterif
	; source: test_uword_lte.p8:519   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_59_else
	; source: test_uword_lte.p8:520   success++
	inc  p8b_main.p8v_success
	bra  label_asm_58_afterif
label_asm_59_else
	; source: test_uword_lte.p8:522   cx16.r0L++
	inc  cx16.r0L
label_asm_58_afterif
	; source: test_uword_lte.p8:524   value=65535
	lda  #$ff
	sta  p8v_value
	sta  p8v_value+1
	
	; source: test_uword_lte.p8:526   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl4a
	; source: test_uword_lte.p8:528   goto skip4a
	bra  p8l_skip4a
	; source: test_uword_lte.p8:529   lbl4a:   success++
p8l_lbl4a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:530   skip4a:
p8l_skip4a
	; source: test_uword_lte.p8:532   cx16.r3 = &lbl4b
	lda  #<p8l_lbl4b
	ldy  #>p8l_lbl4b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:533   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:535   goto skip4b
	bra  p8l_skip4b
	; source: test_uword_lte.p8:536   lbl4b:   success++
p8l_lbl4b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:537   skip4b:
p8l_skip4b
	; source: test_uword_lte.p8:539   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_60_afterif
	; source: test_uword_lte.p8:540   success++
	inc  p8b_main.p8v_success
label_asm_60_afterif
	; source: test_uword_lte.p8:543   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_62_else
	; source: test_uword_lte.p8:544   success++
	inc  p8b_main.p8v_success
	bra  label_asm_61_afterif
label_asm_62_else
	; source: test_uword_lte.p8:546   cx16.r0L++
	inc  cx16.r0L
label_asm_61_afterif
	; source: test_uword_lte.p8:548   x=1
	lda  #<1
	ldy  #>1
	sta  p8v_x
	sty  p8v_x+1
	
	; source: test_uword_lte.p8:549   value=0
	stz  p8v_value
	stz  p8v_value+1
	; source: test_uword_lte.p8:551   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl5a
	; source: test_uword_lte.p8:553   goto skip5a
	bra  p8l_skip5a
	; source: test_uword_lte.p8:554   lbl5a:   fail_uword(25)
p8l_lbl5a
	ldy  #>$19
	lda  #<$19
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:555   skip5a:
p8l_skip5a
	; source: test_uword_lte.p8:557   cx16.r3 = &lbl5b
	lda  #<p8l_lbl5b
	ldy  #>p8l_lbl5b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:558   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:560   goto skip5b
	bra  p8l_skip5b
	; source: test_uword_lte.p8:561   lbl5b:   fail_uword(26)
p8l_lbl5b
	ldy  #>$1a
	lda  #<$1a
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:562   skip5b:
p8l_skip5b
	; source: test_uword_lte.p8:564   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_63_afterif
	; source: test_uword_lte.p8:565   fail_uword(27)
	ldy  #>$1b
	lda  #<$1b
	jsr  p8b_main.p8s_fail_uword
label_asm_63_afterif
	; source: test_uword_lte.p8:568   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_65_else
	; source: test_uword_lte.p8:569   fail_uword(28)
	ldy  #>$1c
	lda  #<$1c
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_64_afterif
label_asm_65_else
	; source: test_uword_lte.p8:571   success++
	inc  p8b_main.p8v_success
label_asm_64_afterif
	; source: test_uword_lte.p8:573   value=1
	lda  #<1
	ldy  #>1
	sta  p8v_value
	sty  p8v_value+1
	
	; source: test_uword_lte.p8:575   if x<=value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl6a
	; source: test_uword_lte.p8:577   goto skip6a
	bra  p8l_skip6a
	; source: test_uword_lte.p8:578   lbl6a:   success++
p8l_lbl6a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:579   skip6a:
p8l_skip6a
	; source: test_uword_lte.p8:581   cx16.r3 = &lbl6b
	lda  #<p8l_lbl6b
	ldy  #>p8l_lbl6b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:582   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:584   goto skip6b
	bra  p8l_skip6b
	; source: test_uword_lte.p8:585   lbl6b:   success++
p8l_lbl6b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:586   skip6b:
p8l_skip6b
	; source: test_uword_lte.p8:588   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_66_afterif
	; source: test_uword_lte.p8:589   success++
	inc  p8b_main.p8v_success
label_asm_66_afterif
	; source: test_uword_lte.p8:592   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_68_else
	; source: test_uword_lte.p8:593   success++
	inc  p8b_main.p8v_success
	bra  label_asm_67_afterif
label_asm_68_else
	; source: test_uword_lte.p8:595   cx16.r0L++
	inc  cx16.r0L
label_asm_67_afterif
	; source: test_uword_lte.p8:597   value=30464
	lda  #<$7700
	ldy  #>$7700
	sta  p8v_value
	sty  p8v_value+1
	
	; source: test_uword_lte.p8:599   if x<=value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl7a
	; source: test_uword_lte.p8:601   goto skip7a
	bra  p8l_skip7a
	; source: test_uword_lte.p8:602   lbl7a:   success++
p8l_lbl7a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:603   skip7a:
p8l_skip7a
	; source: test_uword_lte.p8:605   cx16.r3 = &lbl7b
	lda  #<p8l_lbl7b
	ldy  #>p8l_lbl7b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:606   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:608   goto skip7b
	bra  p8l_skip7b
	; source: test_uword_lte.p8:609   lbl7b:   success++
p8l_lbl7b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:610   skip7b:
p8l_skip7b
	; source: test_uword_lte.p8:612   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_69_afterif
	; source: test_uword_lte.p8:613   success++
	inc  p8b_main.p8v_success
label_asm_69_afterif
	; source: test_uword_lte.p8:616   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_71_else
	; source: test_uword_lte.p8:617   success++
	inc  p8b_main.p8v_success
	bra  label_asm_70_afterif
label_asm_71_else
	; source: test_uword_lte.p8:619   cx16.r0L++
	inc  cx16.r0L
label_asm_70_afterif
	; source: test_uword_lte.p8:621   value=65535
	lda  #$ff
	sta  p8v_value
	sta  p8v_value+1
	
	; source: test_uword_lte.p8:623   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl8a
	; source: test_uword_lte.p8:625   goto skip8a
	bra  p8l_skip8a
	; source: test_uword_lte.p8:626   lbl8a:   success++
p8l_lbl8a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:627   skip8a:
p8l_skip8a
	; source: test_uword_lte.p8:629   cx16.r3 = &lbl8b
	lda  #<p8l_lbl8b
	ldy  #>p8l_lbl8b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:630   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:632   goto skip8b
	bra  p8l_skip8b
	; source: test_uword_lte.p8:633   lbl8b:   success++
p8l_lbl8b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:634   skip8b:
p8l_skip8b
	; source: test_uword_lte.p8:636   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_72_afterif
	; source: test_uword_lte.p8:637   success++
	inc  p8b_main.p8v_success
label_asm_72_afterif
	; source: test_uword_lte.p8:640   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_74_else
	; source: test_uword_lte.p8:641   success++
	inc  p8b_main.p8v_success
	bra  label_asm_73_afterif
label_asm_74_else
	; source: test_uword_lte.p8:643   cx16.r0L++
	inc  cx16.r0L
label_asm_73_afterif
	; source: test_uword_lte.p8:645   x=30464
	lda  #<$7700
	ldy  #>$7700
	sta  p8v_x
	sty  p8v_x+1
	
	; source: test_uword_lte.p8:646   value=0
	stz  p8v_value
	stz  p8v_value+1
	; source: test_uword_lte.p8:648   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl9a
	; source: test_uword_lte.p8:650   goto skip9a
	bra  p8l_skip9a
	; source: test_uword_lte.p8:651   lbl9a:   fail_uword(29)
p8l_lbl9a
	ldy  #>$1d
	lda  #<$1d
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:652   skip9a:
p8l_skip9a
	; source: test_uword_lte.p8:654   cx16.r3 = &lbl9b
	lda  #<p8l_lbl9b
	ldy  #>p8l_lbl9b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:655   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:657   goto skip9b
	bra  p8l_skip9b
	; source: test_uword_lte.p8:658   lbl9b:   fail_uword(30)
p8l_lbl9b
	ldy  #>$1e
	lda  #<$1e
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:659   skip9b:
p8l_skip9b
	; source: test_uword_lte.p8:661   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_75_afterif
	; source: test_uword_lte.p8:662   fail_uword(31)
	ldy  #>$1f
	lda  #<$1f
	jsr  p8b_main.p8s_fail_uword
label_asm_75_afterif
	; source: test_uword_lte.p8:665   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_77_else
	; source: test_uword_lte.p8:666   fail_uword(32)
	ldy  #>$20
	lda  #<$20
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_76_afterif
label_asm_77_else
	; source: test_uword_lte.p8:668   success++
	inc  p8b_main.p8v_success
label_asm_76_afterif
	; source: test_uword_lte.p8:670   value=1
	lda  #<1
	ldy  #>1
	sta  p8v_value
	sty  p8v_value+1
	
	; source: test_uword_lte.p8:672   if x<=value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl10a
	; source: test_uword_lte.p8:674   goto skip10a
	bra  p8l_skip10a
	; source: test_uword_lte.p8:675   lbl10a:   fail_uword(33)
p8l_lbl10a
	ldy  #>$21
	lda  #<$21
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:676   skip10a:
p8l_skip10a
	; source: test_uword_lte.p8:678   cx16.r3 = &lbl10b
	lda  #<p8l_lbl10b
	ldy  #>p8l_lbl10b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:679   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:681   goto skip10b
	bra  p8l_skip10b
	; source: test_uword_lte.p8:682   lbl10b:   fail_uword(34)
p8l_lbl10b
	ldy  #>$22
	lda  #<$22
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:683   skip10b:
p8l_skip10b
	; source: test_uword_lte.p8:685   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_78_afterif
	; source: test_uword_lte.p8:686   fail_uword(35)
	ldy  #>$23
	lda  #<$23
	jsr  p8b_main.p8s_fail_uword
label_asm_78_afterif
	; source: test_uword_lte.p8:689   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_80_else
	; source: test_uword_lte.p8:690   fail_uword(36)
	ldy  #>$24
	lda  #<$24
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_79_afterif
label_asm_80_else
	; source: test_uword_lte.p8:692   success++
	inc  p8b_main.p8v_success
label_asm_79_afterif
	; source: test_uword_lte.p8:694   value=30464
	lda  #<$7700
	ldy  #>$7700
	sta  p8v_value
	sty  p8v_value+1
	
	; source: test_uword_lte.p8:696   if x<=value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl11a
	; source: test_uword_lte.p8:698   goto skip11a
	bra  p8l_skip11a
	; source: test_uword_lte.p8:699   lbl11a:   success++
p8l_lbl11a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:700   skip11a:
p8l_skip11a
	; source: test_uword_lte.p8:702   cx16.r3 = &lbl11b
	lda  #<p8l_lbl11b
	ldy  #>p8l_lbl11b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:703   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:705   goto skip11b
	bra  p8l_skip11b
	; source: test_uword_lte.p8:706   lbl11b:   success++
p8l_lbl11b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:707   skip11b:
p8l_skip11b
	; source: test_uword_lte.p8:709   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_81_afterif
	; source: test_uword_lte.p8:710   success++
	inc  p8b_main.p8v_success
label_asm_81_afterif
	; source: test_uword_lte.p8:713   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_83_else
	; source: test_uword_lte.p8:714   success++
	inc  p8b_main.p8v_success
	bra  label_asm_82_afterif
label_asm_83_else
	; source: test_uword_lte.p8:716   cx16.r0L++
	inc  cx16.r0L
label_asm_82_afterif
	; source: test_uword_lte.p8:718   value=65535
	lda  #$ff
	sta  p8v_value
	sta  p8v_value+1
	
	; source: test_uword_lte.p8:720   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl12a
	; source: test_uword_lte.p8:722   goto skip12a
	bra  p8l_skip12a
	; source: test_uword_lte.p8:723   lbl12a:   success++
p8l_lbl12a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:724   skip12a:
p8l_skip12a
	; source: test_uword_lte.p8:726   cx16.r3 = &lbl12b
	lda  #<p8l_lbl12b
	ldy  #>p8l_lbl12b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:727   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:729   goto skip12b
	bra  p8l_skip12b
	; source: test_uword_lte.p8:730   lbl12b:   success++
p8l_lbl12b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:731   skip12b:
p8l_skip12b
	; source: test_uword_lte.p8:733   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_84_afterif
	; source: test_uword_lte.p8:734   success++
	inc  p8b_main.p8v_success
label_asm_84_afterif
	; source: test_uword_lte.p8:737   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_86_else
	; source: test_uword_lte.p8:738   success++
	inc  p8b_main.p8v_success
	bra  label_asm_85_afterif
label_asm_86_else
	; source: test_uword_lte.p8:740   cx16.r0L++
	inc  cx16.r0L
label_asm_85_afterif
	; source: test_uword_lte.p8:742   x=65535
	lda  #$ff
	sta  p8v_x
	sta  p8v_x+1
	
	; source: test_uword_lte.p8:743   value=0
	stz  p8v_value
	stz  p8v_value+1
	; source: test_uword_lte.p8:745   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl13a
	; source: test_uword_lte.p8:747   goto skip13a
	bra  p8l_skip13a
	; source: test_uword_lte.p8:748   lbl13a:   fail_uword(37)
p8l_lbl13a
	ldy  #>$25
	lda  #<$25
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:749   skip13a:
p8l_skip13a
	; source: test_uword_lte.p8:751   cx16.r3 = &lbl13b
	lda  #<p8l_lbl13b
	ldy  #>p8l_lbl13b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:752   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:754   goto skip13b
	bra  p8l_skip13b
	; source: test_uword_lte.p8:755   lbl13b:   fail_uword(38)
p8l_lbl13b
	ldy  #>$26
	lda  #<$26
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:756   skip13b:
p8l_skip13b
	; source: test_uword_lte.p8:758   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_87_afterif
	; source: test_uword_lte.p8:759   fail_uword(39)
	ldy  #>$27
	lda  #<$27
	jsr  p8b_main.p8s_fail_uword
label_asm_87_afterif
	; source: test_uword_lte.p8:762   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_89_else
	; source: test_uword_lte.p8:763   fail_uword(40)
	ldy  #>$28
	lda  #<$28
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_88_afterif
label_asm_89_else
	; source: test_uword_lte.p8:765   success++
	inc  p8b_main.p8v_success
label_asm_88_afterif
	; source: test_uword_lte.p8:767   value=1
	lda  #<1
	ldy  #>1
	sta  p8v_value
	sty  p8v_value+1
	
	; source: test_uword_lte.p8:769   if x<=value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl14a
	; source: test_uword_lte.p8:771   goto skip14a
	bra  p8l_skip14a
	; source: test_uword_lte.p8:772   lbl14a:   fail_uword(41)
p8l_lbl14a
	ldy  #>$29
	lda  #<$29
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:773   skip14a:
p8l_skip14a
	; source: test_uword_lte.p8:775   cx16.r3 = &lbl14b
	lda  #<p8l_lbl14b
	ldy  #>p8l_lbl14b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:776   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:778   goto skip14b
	bra  p8l_skip14b
	; source: test_uword_lte.p8:779   lbl14b:   fail_uword(42)
p8l_lbl14b
	ldy  #>$2a
	lda  #<$2a
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:780   skip14b:
p8l_skip14b
	; source: test_uword_lte.p8:782   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_90_afterif
	; source: test_uword_lte.p8:783   fail_uword(43)
	ldy  #>$2b
	lda  #<$2b
	jsr  p8b_main.p8s_fail_uword
label_asm_90_afterif
	; source: test_uword_lte.p8:786   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_92_else
	; source: test_uword_lte.p8:787   fail_uword(44)
	ldy  #>$2c
	lda  #<$2c
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_91_afterif
label_asm_92_else
	; source: test_uword_lte.p8:789   success++
	inc  p8b_main.p8v_success
label_asm_91_afterif
	; source: test_uword_lte.p8:791   value=30464
	lda  #<$7700
	ldy  #>$7700
	sta  p8v_value
	sty  p8v_value+1
	
	; source: test_uword_lte.p8:793   if x<=value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl15a
	; source: test_uword_lte.p8:795   goto skip15a
	bra  p8l_skip15a
	; source: test_uword_lte.p8:796   lbl15a:   fail_uword(45)
p8l_lbl15a
	ldy  #>$2d
	lda  #<$2d
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:797   skip15a:
p8l_skip15a
	; source: test_uword_lte.p8:799   cx16.r3 = &lbl15b
	lda  #<p8l_lbl15b
	ldy  #>p8l_lbl15b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:800   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:802   goto skip15b
	bra  p8l_skip15b
	; source: test_uword_lte.p8:803   lbl15b:   fail_uword(46)
p8l_lbl15b
	ldy  #>$2e
	lda  #<$2e
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:804   skip15b:
p8l_skip15b
	; source: test_uword_lte.p8:806   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_93_afterif
	; source: test_uword_lte.p8:807   fail_uword(47)
	ldy  #>$2f
	lda  #<$2f
	jsr  p8b_main.p8s_fail_uword
label_asm_93_afterif
	; source: test_uword_lte.p8:810   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_95_else
	; source: test_uword_lte.p8:811   fail_uword(48)
	ldy  #>$30
	lda  #<$30
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_94_afterif
label_asm_95_else
	; source: test_uword_lte.p8:813   success++
	inc  p8b_main.p8v_success
label_asm_94_afterif
	; source: test_uword_lte.p8:815   value=65535
	lda  #$ff
	sta  p8v_value
	sta  p8v_value+1
	
	; source: test_uword_lte.p8:817   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl16a
	; source: test_uword_lte.p8:819   goto skip16a
	bra  p8l_skip16a
	; source: test_uword_lte.p8:820   lbl16a:   success++
p8l_lbl16a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:821   skip16a:
p8l_skip16a
	; source: test_uword_lte.p8:823   cx16.r3 = &lbl16b
	lda  #<p8l_lbl16b
	ldy  #>p8l_lbl16b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:824   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:826   goto skip16b
	bra  p8l_skip16b
	; source: test_uword_lte.p8:827   lbl16b:   success++
p8l_lbl16b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:828   skip16b:
p8l_skip16b
	; source: test_uword_lte.p8:830   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_96_afterif
	; source: test_uword_lte.p8:831   success++
	inc  p8b_main.p8v_success
label_asm_96_afterif
	; source: test_uword_lte.p8:834   if x<=value
	ldy  p8v_value+1
	lda  p8v_value
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_98_else
	; source: test_uword_lte.p8:835   success++
	inc  p8b_main.p8v_success
	bra  label_asm_97_afterif
label_asm_98_else
	; source: test_uword_lte.p8:837   cx16.r0L++
	inc  cx16.r0L
label_asm_97_afterif
	; source: test_uword_lte.p8:839   verify_success(46)
	lda  #$2e
	jmp  p8b_main.p8s_verify_success
	; source: test_uword_lte.p8:448   sub test_cmp_var() {
; variables
	.section BSS
	.send BSS

; non-zeropage variables without initialization value
	.section BSS
p8v_value	.word  ?
p8v_x	.word  ?
	.send BSS
	.pend
	; source: test_uword_lte.p8:841   sub test_cmp_array() {

p8s_test_cmp_array	.proc
; statements
	; source: test_uword_lte.p8:842   uword @shared x
	; source: test_uword_lte.p8:843   uword[] values = [0, 0]
	; source: test_uword_lte.p8:842   uword @shared x
	stz  p8v_x
	stz  p8v_x+1
	; source: test_uword_lte.p8:844   success = 0
	stz  p8b_main.p8v_success
	; source: test_uword_lte.p8:845   x=0
	stz  p8v_x
	stz  p8v_x+1
	; source: test_uword_lte.p8:846   values[1]=0
	ldy  #2
	lda  #0
	sta  p8v_values,y
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:848   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl1a
	; source: test_uword_lte.p8:850   goto skip1a
	bra  p8l_skip1a
	; source: test_uword_lte.p8:851   lbl1a:   success++
p8l_lbl1a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:852   skip1a:
p8l_skip1a
	; source: test_uword_lte.p8:854   cx16.r3 = &lbl1b
	lda  #<p8l_lbl1b
	ldy  #>p8l_lbl1b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:855   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:857   goto skip1b
	bra  p8l_skip1b
	; source: test_uword_lte.p8:858   lbl1b:   success++
p8l_lbl1b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:859   skip1b:
p8l_skip1b
	; source: test_uword_lte.p8:861   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_99_afterif
	; source: test_uword_lte.p8:862   success++
	inc  p8b_main.p8v_success
label_asm_99_afterif
	; source: test_uword_lte.p8:865   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_101_else
	; source: test_uword_lte.p8:866   success++
	inc  p8b_main.p8v_success
	bra  label_asm_100_afterif
label_asm_101_else
	; source: test_uword_lte.p8:868   cx16.r0L++
	inc  cx16.r0L
label_asm_100_afterif
	; source: test_uword_lte.p8:870   values[1]=1
	ldy  #2
	lda  #<1
	sta  p8v_values,y
	lda  #>1
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:872   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl2a
	; source: test_uword_lte.p8:874   goto skip2a
	bra  p8l_skip2a
	; source: test_uword_lte.p8:875   lbl2a:   success++
p8l_lbl2a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:876   skip2a:
p8l_skip2a
	; source: test_uword_lte.p8:878   cx16.r3 = &lbl2b
	lda  #<p8l_lbl2b
	ldy  #>p8l_lbl2b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:879   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:881   goto skip2b
	bra  p8l_skip2b
	; source: test_uword_lte.p8:882   lbl2b:   success++
p8l_lbl2b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:883   skip2b:
p8l_skip2b
	; source: test_uword_lte.p8:885   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_102_afterif
	; source: test_uword_lte.p8:886   success++
	inc  p8b_main.p8v_success
label_asm_102_afterif
	; source: test_uword_lte.p8:889   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_104_else
	; source: test_uword_lte.p8:890   success++
	inc  p8b_main.p8v_success
	bra  label_asm_103_afterif
label_asm_104_else
	; source: test_uword_lte.p8:892   cx16.r0L++
	inc  cx16.r0L
label_asm_103_afterif
	; source: test_uword_lte.p8:894   values[1]=30464
	ldy  #2
	lda  #<$7700
	sta  p8v_values,y
	lda  #>$7700
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:896   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl3a
	; source: test_uword_lte.p8:898   goto skip3a
	bra  p8l_skip3a
	; source: test_uword_lte.p8:899   lbl3a:   success++
p8l_lbl3a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:900   skip3a:
p8l_skip3a
	; source: test_uword_lte.p8:902   cx16.r3 = &lbl3b
	lda  #<p8l_lbl3b
	ldy  #>p8l_lbl3b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:903   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:905   goto skip3b
	bra  p8l_skip3b
	; source: test_uword_lte.p8:906   lbl3b:   success++
p8l_lbl3b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:907   skip3b:
p8l_skip3b
	; source: test_uword_lte.p8:909   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_105_afterif
	; source: test_uword_lte.p8:910   success++
	inc  p8b_main.p8v_success
label_asm_105_afterif
	; source: test_uword_lte.p8:913   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_107_else
	; source: test_uword_lte.p8:914   success++
	inc  p8b_main.p8v_success
	bra  label_asm_106_afterif
label_asm_107_else
	; source: test_uword_lte.p8:916   cx16.r0L++
	inc  cx16.r0L
label_asm_106_afterif
	; source: test_uword_lte.p8:918   values[1]=65535
	ldy  #2
	lda  #<$ffff
	sta  p8v_values,y
	lda  #>$ffff
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:920   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl4a
	; source: test_uword_lte.p8:922   goto skip4a
	bra  p8l_skip4a
	; source: test_uword_lte.p8:923   lbl4a:   success++
p8l_lbl4a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:924   skip4a:
p8l_skip4a
	; source: test_uword_lte.p8:926   cx16.r3 = &lbl4b
	lda  #<p8l_lbl4b
	ldy  #>p8l_lbl4b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:927   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:929   goto skip4b
	bra  p8l_skip4b
	; source: test_uword_lte.p8:930   lbl4b:   success++
p8l_lbl4b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:931   skip4b:
p8l_skip4b
	; source: test_uword_lte.p8:933   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_108_afterif
	; source: test_uword_lte.p8:934   success++
	inc  p8b_main.p8v_success
label_asm_108_afterif
	; source: test_uword_lte.p8:937   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_110_else
	; source: test_uword_lte.p8:938   success++
	inc  p8b_main.p8v_success
	bra  label_asm_109_afterif
label_asm_110_else
	; source: test_uword_lte.p8:940   cx16.r0L++
	inc  cx16.r0L
label_asm_109_afterif
	; source: test_uword_lte.p8:942   x=1
	lda  #<1
	ldy  #>1
	sta  p8v_x
	sty  p8v_x+1
	
	; source: test_uword_lte.p8:943   values[1]=0
	ldy  #2
	lda  #0
	sta  p8v_values,y
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:945   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl5a
	; source: test_uword_lte.p8:947   goto skip5a
	bra  p8l_skip5a
	; source: test_uword_lte.p8:948   lbl5a:   fail_uword(49)
p8l_lbl5a
	ldy  #>$31
	lda  #<$31
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:949   skip5a:
p8l_skip5a
	; source: test_uword_lte.p8:951   cx16.r3 = &lbl5b
	lda  #<p8l_lbl5b
	ldy  #>p8l_lbl5b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:952   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:954   goto skip5b
	bra  p8l_skip5b
	; source: test_uword_lte.p8:955   lbl5b:   fail_uword(50)
p8l_lbl5b
	ldy  #>$32
	lda  #<$32
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:956   skip5b:
p8l_skip5b
	; source: test_uword_lte.p8:958   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_111_afterif
	; source: test_uword_lte.p8:959   fail_uword(51)
	ldy  #>$33
	lda  #<$33
	jsr  p8b_main.p8s_fail_uword
label_asm_111_afterif
	; source: test_uword_lte.p8:962   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_113_else
	; source: test_uword_lte.p8:963   fail_uword(52)
	ldy  #>$34
	lda  #<$34
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_112_afterif
label_asm_113_else
	; source: test_uword_lte.p8:965   success++
	inc  p8b_main.p8v_success
label_asm_112_afterif
	; source: test_uword_lte.p8:967   values[1]=1
	ldy  #2
	lda  #<1
	sta  p8v_values,y
	lda  #>1
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:969   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl6a
	; source: test_uword_lte.p8:971   goto skip6a
	bra  p8l_skip6a
	; source: test_uword_lte.p8:972   lbl6a:   success++
p8l_lbl6a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:973   skip6a:
p8l_skip6a
	; source: test_uword_lte.p8:975   cx16.r3 = &lbl6b
	lda  #<p8l_lbl6b
	ldy  #>p8l_lbl6b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:976   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:978   goto skip6b
	bra  p8l_skip6b
	; source: test_uword_lte.p8:979   lbl6b:   success++
p8l_lbl6b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:980   skip6b:
p8l_skip6b
	; source: test_uword_lte.p8:982   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_114_afterif
	; source: test_uword_lte.p8:983   success++
	inc  p8b_main.p8v_success
label_asm_114_afterif
	; source: test_uword_lte.p8:986   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_116_else
	; source: test_uword_lte.p8:987   success++
	inc  p8b_main.p8v_success
	bra  label_asm_115_afterif
label_asm_116_else
	; source: test_uword_lte.p8:989   cx16.r0L++
	inc  cx16.r0L
label_asm_115_afterif
	; source: test_uword_lte.p8:991   values[1]=30464
	ldy  #2
	lda  #<$7700
	sta  p8v_values,y
	lda  #>$7700
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:993   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl7a
	; source: test_uword_lte.p8:995   goto skip7a
	bra  p8l_skip7a
	; source: test_uword_lte.p8:996   lbl7a:   success++
p8l_lbl7a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:997   skip7a:
p8l_skip7a
	; source: test_uword_lte.p8:999   cx16.r3 = &lbl7b
	lda  #<p8l_lbl7b
	ldy  #>p8l_lbl7b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1000   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1002   goto skip7b
	bra  p8l_skip7b
	; source: test_uword_lte.p8:1003   lbl7b:   success++
p8l_lbl7b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1004   skip7b:
p8l_skip7b
	; source: test_uword_lte.p8:1006   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_117_afterif
	; source: test_uword_lte.p8:1007   success++
	inc  p8b_main.p8v_success
label_asm_117_afterif
	; source: test_uword_lte.p8:1010   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_119_else
	; source: test_uword_lte.p8:1011   success++
	inc  p8b_main.p8v_success
	bra  label_asm_118_afterif
label_asm_119_else
	; source: test_uword_lte.p8:1013   cx16.r0L++
	inc  cx16.r0L
label_asm_118_afterif
	; source: test_uword_lte.p8:1015   values[1]=65535
	ldy  #2
	lda  #<$ffff
	sta  p8v_values,y
	lda  #>$ffff
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:1017   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl8a
	; source: test_uword_lte.p8:1019   goto skip8a
	bra  p8l_skip8a
	; source: test_uword_lte.p8:1020   lbl8a:   success++
p8l_lbl8a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1021   skip8a:
p8l_skip8a
	; source: test_uword_lte.p8:1023   cx16.r3 = &lbl8b
	lda  #<p8l_lbl8b
	ldy  #>p8l_lbl8b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1024   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1026   goto skip8b
	bra  p8l_skip8b
	; source: test_uword_lte.p8:1027   lbl8b:   success++
p8l_lbl8b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1028   skip8b:
p8l_skip8b
	; source: test_uword_lte.p8:1030   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_120_afterif
	; source: test_uword_lte.p8:1031   success++
	inc  p8b_main.p8v_success
label_asm_120_afterif
	; source: test_uword_lte.p8:1034   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_122_else
	; source: test_uword_lte.p8:1035   success++
	inc  p8b_main.p8v_success
	bra  label_asm_121_afterif
label_asm_122_else
	; source: test_uword_lte.p8:1037   cx16.r0L++
	inc  cx16.r0L
label_asm_121_afterif
	; source: test_uword_lte.p8:1039   x=30464
	lda  #<$7700
	ldy  #>$7700
	sta  p8v_x
	sty  p8v_x+1
	
	; source: test_uword_lte.p8:1040   values[1]=0
	ldy  #2
	lda  #0
	sta  p8v_values,y
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:1042   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl9a
	; source: test_uword_lte.p8:1044   goto skip9a
	bra  p8l_skip9a
	; source: test_uword_lte.p8:1045   lbl9a:   fail_uword(53)
p8l_lbl9a
	ldy  #>$35
	lda  #<$35
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1046   skip9a:
p8l_skip9a
	; source: test_uword_lte.p8:1048   cx16.r3 = &lbl9b
	lda  #<p8l_lbl9b
	ldy  #>p8l_lbl9b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1049   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1051   goto skip9b
	bra  p8l_skip9b
	; source: test_uword_lte.p8:1052   lbl9b:   fail_uword(54)
p8l_lbl9b
	ldy  #>$36
	lda  #<$36
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1053   skip9b:
p8l_skip9b
	; source: test_uword_lte.p8:1055   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_123_afterif
	; source: test_uword_lte.p8:1056   fail_uword(55)
	ldy  #>$37
	lda  #<$37
	jsr  p8b_main.p8s_fail_uword
label_asm_123_afterif
	; source: test_uword_lte.p8:1059   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_125_else
	; source: test_uword_lte.p8:1060   fail_uword(56)
	ldy  #>$38
	lda  #<$38
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_124_afterif
label_asm_125_else
	; source: test_uword_lte.p8:1062   success++
	inc  p8b_main.p8v_success
label_asm_124_afterif
	; source: test_uword_lte.p8:1064   values[1]=1
	ldy  #2
	lda  #<1
	sta  p8v_values,y
	lda  #>1
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:1066   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl10a
	; source: test_uword_lte.p8:1068   goto skip10a
	bra  p8l_skip10a
	; source: test_uword_lte.p8:1069   lbl10a:   fail_uword(57)
p8l_lbl10a
	ldy  #>$39
	lda  #<$39
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1070   skip10a:
p8l_skip10a
	; source: test_uword_lte.p8:1072   cx16.r3 = &lbl10b
	lda  #<p8l_lbl10b
	ldy  #>p8l_lbl10b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1073   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1075   goto skip10b
	bra  p8l_skip10b
	; source: test_uword_lte.p8:1076   lbl10b:   fail_uword(58)
p8l_lbl10b
	ldy  #>$3a
	lda  #<$3a
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1077   skip10b:
p8l_skip10b
	; source: test_uword_lte.p8:1079   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_126_afterif
	; source: test_uword_lte.p8:1080   fail_uword(59)
	ldy  #>$3b
	lda  #<$3b
	jsr  p8b_main.p8s_fail_uword
label_asm_126_afterif
	; source: test_uword_lte.p8:1083   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_128_else
	; source: test_uword_lte.p8:1084   fail_uword(60)
	ldy  #>$3c
	lda  #<$3c
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_127_afterif
label_asm_128_else
	; source: test_uword_lte.p8:1086   success++
	inc  p8b_main.p8v_success
label_asm_127_afterif
	; source: test_uword_lte.p8:1088   values[1]=30464
	ldy  #2
	lda  #<$7700
	sta  p8v_values,y
	lda  #>$7700
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:1090   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl11a
	; source: test_uword_lte.p8:1092   goto skip11a
	bra  p8l_skip11a
	; source: test_uword_lte.p8:1093   lbl11a:   success++
p8l_lbl11a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1094   skip11a:
p8l_skip11a
	; source: test_uword_lte.p8:1096   cx16.r3 = &lbl11b
	lda  #<p8l_lbl11b
	ldy  #>p8l_lbl11b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1097   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1099   goto skip11b
	bra  p8l_skip11b
	; source: test_uword_lte.p8:1100   lbl11b:   success++
p8l_lbl11b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1101   skip11b:
p8l_skip11b
	; source: test_uword_lte.p8:1103   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_129_afterif
	; source: test_uword_lte.p8:1104   success++
	inc  p8b_main.p8v_success
label_asm_129_afterif
	; source: test_uword_lte.p8:1107   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_131_else
	; source: test_uword_lte.p8:1108   success++
	inc  p8b_main.p8v_success
	bra  label_asm_130_afterif
label_asm_131_else
	; source: test_uword_lte.p8:1110   cx16.r0L++
	inc  cx16.r0L
label_asm_130_afterif
	; source: test_uword_lte.p8:1112   values[1]=65535
	ldy  #2
	lda  #<$ffff
	sta  p8v_values,y
	lda  #>$ffff
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:1114   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl12a
	; source: test_uword_lte.p8:1116   goto skip12a
	bra  p8l_skip12a
	; source: test_uword_lte.p8:1117   lbl12a:   success++
p8l_lbl12a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1118   skip12a:
p8l_skip12a
	; source: test_uword_lte.p8:1120   cx16.r3 = &lbl12b
	lda  #<p8l_lbl12b
	ldy  #>p8l_lbl12b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1121   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1123   goto skip12b
	bra  p8l_skip12b
	; source: test_uword_lte.p8:1124   lbl12b:   success++
p8l_lbl12b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1125   skip12b:
p8l_skip12b
	; source: test_uword_lte.p8:1127   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_132_afterif
	; source: test_uword_lte.p8:1128   success++
	inc  p8b_main.p8v_success
label_asm_132_afterif
	; source: test_uword_lte.p8:1131   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_134_else
	; source: test_uword_lte.p8:1132   success++
	inc  p8b_main.p8v_success
	bra  label_asm_133_afterif
label_asm_134_else
	; source: test_uword_lte.p8:1134   cx16.r0L++
	inc  cx16.r0L
label_asm_133_afterif
	; source: test_uword_lte.p8:1136   x=65535
	lda  #$ff
	sta  p8v_x
	sta  p8v_x+1
	
	; source: test_uword_lte.p8:1137   values[1]=0
	ldy  #2
	lda  #0
	sta  p8v_values,y
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:1139   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl13a
	; source: test_uword_lte.p8:1141   goto skip13a
	bra  p8l_skip13a
	; source: test_uword_lte.p8:1142   lbl13a:   fail_uword(61)
p8l_lbl13a
	ldy  #>$3d
	lda  #<$3d
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1143   skip13a:
p8l_skip13a
	; source: test_uword_lte.p8:1145   cx16.r3 = &lbl13b
	lda  #<p8l_lbl13b
	ldy  #>p8l_lbl13b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1146   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1148   goto skip13b
	bra  p8l_skip13b
	; source: test_uword_lte.p8:1149   lbl13b:   fail_uword(62)
p8l_lbl13b
	ldy  #>$3e
	lda  #<$3e
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1150   skip13b:
p8l_skip13b
	; source: test_uword_lte.p8:1152   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_135_afterif
	; source: test_uword_lte.p8:1153   fail_uword(63)
	ldy  #>$3f
	lda  #<$3f
	jsr  p8b_main.p8s_fail_uword
label_asm_135_afterif
	; source: test_uword_lte.p8:1156   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_137_else
	; source: test_uword_lte.p8:1157   fail_uword(64)
	ldy  #>$40
	lda  #<$40
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_136_afterif
label_asm_137_else
	; source: test_uword_lte.p8:1159   success++
	inc  p8b_main.p8v_success
label_asm_136_afterif
	; source: test_uword_lte.p8:1161   values[1]=1
	ldy  #2
	lda  #<1
	sta  p8v_values,y
	lda  #>1
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:1163   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl14a
	; source: test_uword_lte.p8:1165   goto skip14a
	bra  p8l_skip14a
	; source: test_uword_lte.p8:1166   lbl14a:   fail_uword(65)
p8l_lbl14a
	ldy  #>$41
	lda  #<$41
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1167   skip14a:
p8l_skip14a
	; source: test_uword_lte.p8:1169   cx16.r3 = &lbl14b
	lda  #<p8l_lbl14b
	ldy  #>p8l_lbl14b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1170   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1172   goto skip14b
	bra  p8l_skip14b
	; source: test_uword_lte.p8:1173   lbl14b:   fail_uword(66)
p8l_lbl14b
	ldy  #>$42
	lda  #<$42
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1174   skip14b:
p8l_skip14b
	; source: test_uword_lte.p8:1176   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_138_afterif
	; source: test_uword_lte.p8:1177   fail_uword(67)
	ldy  #>$43
	lda  #<$43
	jsr  p8b_main.p8s_fail_uword
label_asm_138_afterif
	; source: test_uword_lte.p8:1180   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_140_else
	; source: test_uword_lte.p8:1181   fail_uword(68)
	ldy  #>$44
	lda  #<$44
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_139_afterif
label_asm_140_else
	; source: test_uword_lte.p8:1183   success++
	inc  p8b_main.p8v_success
label_asm_139_afterif
	; source: test_uword_lte.p8:1185   values[1]=30464
	ldy  #2
	lda  #<$7700
	sta  p8v_values,y
	lda  #>$7700
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:1187   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl15a
	; source: test_uword_lte.p8:1189   goto skip15a
	bra  p8l_skip15a
	; source: test_uword_lte.p8:1190   lbl15a:   fail_uword(69)
p8l_lbl15a
	ldy  #>$45
	lda  #<$45
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1191   skip15a:
p8l_skip15a
	; source: test_uword_lte.p8:1193   cx16.r3 = &lbl15b
	lda  #<p8l_lbl15b
	ldy  #>p8l_lbl15b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1194   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1196   goto skip15b
	bra  p8l_skip15b
	; source: test_uword_lte.p8:1197   lbl15b:   fail_uword(70)
p8l_lbl15b
	ldy  #>$46
	lda  #<$46
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1198   skip15b:
p8l_skip15b
	; source: test_uword_lte.p8:1200   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_141_afterif
	; source: test_uword_lte.p8:1201   fail_uword(71)
	ldy  #>$47
	lda  #<$47
	jsr  p8b_main.p8s_fail_uword
label_asm_141_afterif
	; source: test_uword_lte.p8:1204   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_143_else
	; source: test_uword_lte.p8:1205   fail_uword(72)
	ldy  #>$48
	lda  #<$48
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_142_afterif
label_asm_143_else
	; source: test_uword_lte.p8:1207   success++
	inc  p8b_main.p8v_success
label_asm_142_afterif
	; source: test_uword_lte.p8:1209   values[1]=65535
	ldy  #2
	lda  #<$ffff
	sta  p8v_values,y
	lda  #>$ffff
	sta  p8v_values+1,y
	; source: test_uword_lte.p8:1211   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl16a
	; source: test_uword_lte.p8:1213   goto skip16a
	bra  p8l_skip16a
	; source: test_uword_lte.p8:1214   lbl16a:   success++
p8l_lbl16a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1215   skip16a:
p8l_skip16a
	; source: test_uword_lte.p8:1217   cx16.r3 = &lbl16b
	lda  #<p8l_lbl16b
	ldy  #>p8l_lbl16b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1218   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1220   goto skip16b
	bra  p8l_skip16b
	; source: test_uword_lte.p8:1221   lbl16b:   success++
p8l_lbl16b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1222   skip16b:
p8l_skip16b
	; source: test_uword_lte.p8:1224   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_144_afterif
	; source: test_uword_lte.p8:1225   success++
	inc  p8b_main.p8v_success
label_asm_144_afterif
	; source: test_uword_lte.p8:1228   if x<=values[1]
	lda  p8v_values+2
	ldy  p8v_values+2+1
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_146_else
	; source: test_uword_lte.p8:1229   success++
	inc  p8b_main.p8v_success
	bra  label_asm_145_afterif
label_asm_146_else
	; source: test_uword_lte.p8:1231   cx16.r0L++
	inc  cx16.r0L
label_asm_145_afterif
	; source: test_uword_lte.p8:1233   verify_success(46)
	lda  #$2e
	jmp  p8b_main.p8s_verify_success
	; source: test_uword_lte.p8:841   sub test_cmp_array() {
; variables
	.section BSS
	.send BSS

; non-zeropage variables without initialization value
	.section BSS
p8v_x	.word  ?
	.send BSS
; non-zeropage variables
p8v_values	.word  $0000, $0000
	.pend
	; source: test_uword_lte.p8:1235   sub test_cmp_expr() {

p8s_test_cmp_expr	.proc
; statements
	; source: test_uword_lte.p8:1236   uword @shared x
	; source: test_uword_lte.p8:1239   float @shared f4 = 1.0
	; source: test_uword_lte.p8:1240   float @shared f5 = 1.0
	; source: test_uword_lte.p8:1236   uword @shared x
	stz  p8v_x
	stz  p8v_x+1
	; source: test_uword_lte.p8:1237   cx16.r4 = 1
	lda  #<1
	ldy  #>1
	sta  cx16.r4
	sty  cx16.r4+1
	
	; source: test_uword_lte.p8:1238   cx16.r5 = 1
	sta  cx16.r5
	sty  cx16.r5+1
	
	; source: test_uword_lte.p8:1239   float @shared f4 = 1.0
	lda  #<prog8_float_const_0
	ldy  #>prog8_float_const_0
	sta  P8ZP_SCRATCH_W1
	sty  P8ZP_SCRATCH_W1+1
	lda  #<p8v_f4
	ldy  #>p8v_f4
	jsr  floats.copy_float
	; source: test_uword_lte.p8:1240   float @shared f5 = 1.0
	lda  #<p8v_f5
	ldy  #>p8v_f5
	jsr  floats.copy_float
	; source: test_uword_lte.p8:1241   success = 0
	stz  p8b_main.p8v_success
	; source: test_uword_lte.p8:1242   x=0
	stz  p8v_x
	stz  p8v_x+1
	; source: test_uword_lte.p8:1244   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl1a
	; source: test_uword_lte.p8:1246   goto skip1a
	bra  p8l_skip1a
	; source: test_uword_lte.p8:1247   lbl1a:   success++
p8l_lbl1a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1248   skip1a:
p8l_skip1a
	; source: test_uword_lte.p8:1250   cx16.r3 = &lbl1b
	lda  #<p8l_lbl1b
	ldy  #>p8l_lbl1b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1251   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1253   goto skip1b
	bra  p8l_skip1b
	; source: test_uword_lte.p8:1254   lbl1b:   success++
p8l_lbl1b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1255   skip1b:
p8l_skip1b
	; source: test_uword_lte.p8:1257   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_147_afterif
	; source: test_uword_lte.p8:1258   success++
	inc  p8b_main.p8v_success
label_asm_147_afterif
	; source: test_uword_lte.p8:1261   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_149_else
	; source: test_uword_lte.p8:1262   success++
	inc  p8b_main.p8v_success
	bra  label_asm_148_afterif
label_asm_149_else
	; source: test_uword_lte.p8:1264   cx16.r0L++
	inc  cx16.r0L
label_asm_148_afterif
	; source: test_uword_lte.p8:1267   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl2a
	; source: test_uword_lte.p8:1269   goto skip2a
	bra  p8l_skip2a
	; source: test_uword_lte.p8:1270   lbl2a:   success++
p8l_lbl2a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1271   skip2a:
p8l_skip2a
	; source: test_uword_lte.p8:1273   cx16.r3 = &lbl2b
	lda  #<p8l_lbl2b
	ldy  #>p8l_lbl2b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1274   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1276   goto skip2b
	bra  p8l_skip2b
	; source: test_uword_lte.p8:1277   lbl2b:   success++
p8l_lbl2b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1278   skip2b:
p8l_skip2b
	; source: test_uword_lte.p8:1280   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_150_afterif
	; source: test_uword_lte.p8:1281   success++
	inc  p8b_main.p8v_success
label_asm_150_afterif
	; source: test_uword_lte.p8:1284   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_152_else
	; source: test_uword_lte.p8:1285   success++
	inc  p8b_main.p8v_success
	bra  label_asm_151_afterif
label_asm_152_else
	; source: test_uword_lte.p8:1287   cx16.r0L++
	inc  cx16.r0L
label_asm_151_afterif
	; source: test_uword_lte.p8:1290   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl3a
	; source: test_uword_lte.p8:1292   goto skip3a
	bra  p8l_skip3a
	; source: test_uword_lte.p8:1293   lbl3a:   success++
p8l_lbl3a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1294   skip3a:
p8l_skip3a
	; source: test_uword_lte.p8:1296   cx16.r3 = &lbl3b
	lda  #<p8l_lbl3b
	ldy  #>p8l_lbl3b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1297   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1299   goto skip3b
	bra  p8l_skip3b
	; source: test_uword_lte.p8:1300   lbl3b:   success++
p8l_lbl3b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1301   skip3b:
p8l_skip3b
	; source: test_uword_lte.p8:1303   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_153_afterif
	; source: test_uword_lte.p8:1304   success++
	inc  p8b_main.p8v_success
label_asm_153_afterif
	; source: test_uword_lte.p8:1307   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_155_else
	; source: test_uword_lte.p8:1308   success++
	inc  p8b_main.p8v_success
	bra  label_asm_154_afterif
label_asm_155_else
	; source: test_uword_lte.p8:1310   cx16.r0L++
	inc  cx16.r0L
label_asm_154_afterif
	; source: test_uword_lte.p8:1313   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl4a
	; source: test_uword_lte.p8:1315   goto skip4a
	bra  p8l_skip4a
	; source: test_uword_lte.p8:1316   lbl4a:   success++
p8l_lbl4a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1317   skip4a:
p8l_skip4a
	; source: test_uword_lte.p8:1319   cx16.r3 = &lbl4b
	lda  #<p8l_lbl4b
	ldy  #>p8l_lbl4b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1320   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1322   goto skip4b
	bra  p8l_skip4b
	; source: test_uword_lte.p8:1323   lbl4b:   success++
p8l_lbl4b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1324   skip4b:
p8l_skip4b
	; source: test_uword_lte.p8:1326   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_156_afterif
	; source: test_uword_lte.p8:1327   success++
	inc  p8b_main.p8v_success
label_asm_156_afterif
	; source: test_uword_lte.p8:1330   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_158_else
	; source: test_uword_lte.p8:1331   success++
	inc  p8b_main.p8v_success
	bra  label_asm_157_afterif
label_asm_158_else
	; source: test_uword_lte.p8:1333   cx16.r0L++
	inc  cx16.r0L
label_asm_157_afterif
	; source: test_uword_lte.p8:1335   x=1
	lda  #<1
	ldy  #>1
	sta  p8v_x
	sty  p8v_x+1
	
	; source: test_uword_lte.p8:1337   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl5a
	; source: test_uword_lte.p8:1339   goto skip5a
	bra  p8l_skip5a
	; source: test_uword_lte.p8:1340   lbl5a:   fail_uword(73)
p8l_lbl5a
	ldy  #>$49
	lda  #<$49
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1341   skip5a:
p8l_skip5a
	; source: test_uword_lte.p8:1343   cx16.r3 = &lbl5b
	lda  #<p8l_lbl5b
	ldy  #>p8l_lbl5b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1344   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1346   goto skip5b
	bra  p8l_skip5b
	; source: test_uword_lte.p8:1347   lbl5b:   fail_uword(74)
p8l_lbl5b
	ldy  #>$4a
	lda  #<$4a
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1348   skip5b:
p8l_skip5b
	; source: test_uword_lte.p8:1350   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_159_afterif
	; source: test_uword_lte.p8:1351   fail_uword(75)
	ldy  #>$4b
	lda  #<$4b
	jsr  p8b_main.p8s_fail_uword
label_asm_159_afterif
	; source: test_uword_lte.p8:1354   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_161_else
	; source: test_uword_lte.p8:1355   fail_uword(76)
	ldy  #>$4c
	lda  #<$4c
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_160_afterif
label_asm_161_else
	; source: test_uword_lte.p8:1357   success++
	inc  p8b_main.p8v_success
label_asm_160_afterif
	; source: test_uword_lte.p8:1360   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl6a
	; source: test_uword_lte.p8:1362   goto skip6a
	bra  p8l_skip6a
	; source: test_uword_lte.p8:1363   lbl6a:   success++
p8l_lbl6a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1364   skip6a:
p8l_skip6a
	; source: test_uword_lte.p8:1366   cx16.r3 = &lbl6b
	lda  #<p8l_lbl6b
	ldy  #>p8l_lbl6b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1367   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1369   goto skip6b
	bra  p8l_skip6b
	; source: test_uword_lte.p8:1370   lbl6b:   success++
p8l_lbl6b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1371   skip6b:
p8l_skip6b
	; source: test_uword_lte.p8:1373   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_162_afterif
	; source: test_uword_lte.p8:1374   success++
	inc  p8b_main.p8v_success
label_asm_162_afterif
	; source: test_uword_lte.p8:1377   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_164_else
	; source: test_uword_lte.p8:1378   success++
	inc  p8b_main.p8v_success
	bra  label_asm_163_afterif
label_asm_164_else
	; source: test_uword_lte.p8:1380   cx16.r0L++
	inc  cx16.r0L
label_asm_163_afterif
	; source: test_uword_lte.p8:1383   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl7a
	; source: test_uword_lte.p8:1385   goto skip7a
	bra  p8l_skip7a
	; source: test_uword_lte.p8:1386   lbl7a:   success++
p8l_lbl7a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1387   skip7a:
p8l_skip7a
	; source: test_uword_lte.p8:1389   cx16.r3 = &lbl7b
	lda  #<p8l_lbl7b
	ldy  #>p8l_lbl7b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1390   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1392   goto skip7b
	bra  p8l_skip7b
	; source: test_uword_lte.p8:1393   lbl7b:   success++
p8l_lbl7b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1394   skip7b:
p8l_skip7b
	; source: test_uword_lte.p8:1396   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_165_afterif
	; source: test_uword_lte.p8:1397   success++
	inc  p8b_main.p8v_success
label_asm_165_afterif
	; source: test_uword_lte.p8:1400   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_167_else
	; source: test_uword_lte.p8:1401   success++
	inc  p8b_main.p8v_success
	bra  label_asm_166_afterif
label_asm_167_else
	; source: test_uword_lte.p8:1403   cx16.r0L++
	inc  cx16.r0L
label_asm_166_afterif
	; source: test_uword_lte.p8:1406   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl8a
	; source: test_uword_lte.p8:1408   goto skip8a
	bra  p8l_skip8a
	; source: test_uword_lte.p8:1409   lbl8a:   success++
p8l_lbl8a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1410   skip8a:
p8l_skip8a
	; source: test_uword_lte.p8:1412   cx16.r3 = &lbl8b
	lda  #<p8l_lbl8b
	ldy  #>p8l_lbl8b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1413   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1415   goto skip8b
	bra  p8l_skip8b
	; source: test_uword_lte.p8:1416   lbl8b:   success++
p8l_lbl8b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1417   skip8b:
p8l_skip8b
	; source: test_uword_lte.p8:1419   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_168_afterif
	; source: test_uword_lte.p8:1420   success++
	inc  p8b_main.p8v_success
label_asm_168_afterif
	; source: test_uword_lte.p8:1423   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_170_else
	; source: test_uword_lte.p8:1424   success++
	inc  p8b_main.p8v_success
	bra  label_asm_169_afterif
label_asm_170_else
	; source: test_uword_lte.p8:1426   cx16.r0L++
	inc  cx16.r0L
label_asm_169_afterif
	; source: test_uword_lte.p8:1428   x=30464
	lda  #<$7700
	ldy  #>$7700
	sta  p8v_x
	sty  p8v_x+1
	
	; source: test_uword_lte.p8:1430   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl9a
	; source: test_uword_lte.p8:1432   goto skip9a
	bra  p8l_skip9a
	; source: test_uword_lte.p8:1433   lbl9a:   fail_uword(77)
p8l_lbl9a
	ldy  #>$4d
	lda  #<$4d
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1434   skip9a:
p8l_skip9a
	; source: test_uword_lte.p8:1436   cx16.r3 = &lbl9b
	lda  #<p8l_lbl9b
	ldy  #>p8l_lbl9b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1437   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1439   goto skip9b
	bra  p8l_skip9b
	; source: test_uword_lte.p8:1440   lbl9b:   fail_uword(78)
p8l_lbl9b
	ldy  #>$4e
	lda  #<$4e
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1441   skip9b:
p8l_skip9b
	; source: test_uword_lte.p8:1443   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_171_afterif
	; source: test_uword_lte.p8:1444   fail_uword(79)
	ldy  #>$4f
	lda  #<$4f
	jsr  p8b_main.p8s_fail_uword
label_asm_171_afterif
	; source: test_uword_lte.p8:1447   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_173_else
	; source: test_uword_lte.p8:1448   fail_uword(80)
	ldy  #>$50
	lda  #<$50
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_172_afterif
label_asm_173_else
	; source: test_uword_lte.p8:1450   success++
	inc  p8b_main.p8v_success
label_asm_172_afterif
	; source: test_uword_lte.p8:1453   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl10a
	; source: test_uword_lte.p8:1455   goto skip10a
	bra  p8l_skip10a
	; source: test_uword_lte.p8:1456   lbl10a:   fail_uword(81)
p8l_lbl10a
	ldy  #>$51
	lda  #<$51
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1457   skip10a:
p8l_skip10a
	; source: test_uword_lte.p8:1459   cx16.r3 = &lbl10b
	lda  #<p8l_lbl10b
	ldy  #>p8l_lbl10b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1460   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1462   goto skip10b
	bra  p8l_skip10b
	; source: test_uword_lte.p8:1463   lbl10b:   fail_uword(82)
p8l_lbl10b
	ldy  #>$52
	lda  #<$52
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1464   skip10b:
p8l_skip10b
	; source: test_uword_lte.p8:1466   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_174_afterif
	; source: test_uword_lte.p8:1467   fail_uword(83)
	ldy  #>$53
	lda  #<$53
	jsr  p8b_main.p8s_fail_uword
label_asm_174_afterif
	; source: test_uword_lte.p8:1470   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_176_else
	; source: test_uword_lte.p8:1471   fail_uword(84)
	ldy  #>$54
	lda  #<$54
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_175_afterif
label_asm_176_else
	; source: test_uword_lte.p8:1473   success++
	inc  p8b_main.p8v_success
label_asm_175_afterif
	; source: test_uword_lte.p8:1476   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl11a
	; source: test_uword_lte.p8:1478   goto skip11a
	bra  p8l_skip11a
	; source: test_uword_lte.p8:1479   lbl11a:   success++
p8l_lbl11a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1480   skip11a:
p8l_skip11a
	; source: test_uword_lte.p8:1482   cx16.r3 = &lbl11b
	lda  #<p8l_lbl11b
	ldy  #>p8l_lbl11b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1483   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1485   goto skip11b
	bra  p8l_skip11b
	; source: test_uword_lte.p8:1486   lbl11b:   success++
p8l_lbl11b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1487   skip11b:
p8l_skip11b
	; source: test_uword_lte.p8:1489   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_177_afterif
	; source: test_uword_lte.p8:1490   success++
	inc  p8b_main.p8v_success
label_asm_177_afterif
	; source: test_uword_lte.p8:1493   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_179_else
	; source: test_uword_lte.p8:1494   success++
	inc  p8b_main.p8v_success
	bra  label_asm_178_afterif
label_asm_179_else
	; source: test_uword_lte.p8:1496   cx16.r0L++
	inc  cx16.r0L
label_asm_178_afterif
	; source: test_uword_lte.p8:1499   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl12a
	; source: test_uword_lte.p8:1501   goto skip12a
	bra  p8l_skip12a
	; source: test_uword_lte.p8:1502   lbl12a:   success++
p8l_lbl12a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1503   skip12a:
p8l_skip12a
	; source: test_uword_lte.p8:1505   cx16.r3 = &lbl12b
	lda  #<p8l_lbl12b
	ldy  #>p8l_lbl12b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1506   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1508   goto skip12b
	bra  p8l_skip12b
	; source: test_uword_lte.p8:1509   lbl12b:   success++
p8l_lbl12b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1510   skip12b:
p8l_skip12b
	; source: test_uword_lte.p8:1512   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_180_afterif
	; source: test_uword_lte.p8:1513   success++
	inc  p8b_main.p8v_success
label_asm_180_afterif
	; source: test_uword_lte.p8:1516   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_182_else
	; source: test_uword_lte.p8:1517   success++
	inc  p8b_main.p8v_success
	bra  label_asm_181_afterif
label_asm_182_else
	; source: test_uword_lte.p8:1519   cx16.r0L++
	inc  cx16.r0L
label_asm_181_afterif
	; source: test_uword_lte.p8:1521   x=65535
	lda  #$ff
	sta  p8v_x
	sta  p8v_x+1
	
	; source: test_uword_lte.p8:1523   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl13a
	; source: test_uword_lte.p8:1525   goto skip13a
	bra  p8l_skip13a
	; source: test_uword_lte.p8:1526   lbl13a:   fail_uword(85)
p8l_lbl13a
	ldy  #>$55
	lda  #<$55
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1527   skip13a:
p8l_skip13a
	; source: test_uword_lte.p8:1529   cx16.r3 = &lbl13b
	lda  #<p8l_lbl13b
	ldy  #>p8l_lbl13b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1530   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1532   goto skip13b
	bra  p8l_skip13b
	; source: test_uword_lte.p8:1533   lbl13b:   fail_uword(86)
p8l_lbl13b
	ldy  #>$56
	lda  #<$56
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1534   skip13b:
p8l_skip13b
	; source: test_uword_lte.p8:1536   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_183_afterif
	; source: test_uword_lte.p8:1537   fail_uword(87)
	ldy  #>$57
	lda  #<$57
	jsr  p8b_main.p8s_fail_uword
label_asm_183_afterif
	; source: test_uword_lte.p8:1540   if x<=cx16.r4+0-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_185_else
	; source: test_uword_lte.p8:1541   fail_uword(88)
	ldy  #>$58
	lda  #<$58
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_184_afterif
label_asm_185_else
	; source: test_uword_lte.p8:1543   success++
	inc  p8b_main.p8v_success
label_asm_184_afterif
	; source: test_uword_lte.p8:1546   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl14a
	; source: test_uword_lte.p8:1548   goto skip14a
	bra  p8l_skip14a
	; source: test_uword_lte.p8:1549   lbl14a:   fail_uword(89)
p8l_lbl14a
	ldy  #>$59
	lda  #<$59
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1550   skip14a:
p8l_skip14a
	; source: test_uword_lte.p8:1552   cx16.r3 = &lbl14b
	lda  #<p8l_lbl14b
	ldy  #>p8l_lbl14b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1553   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1555   goto skip14b
	bra  p8l_skip14b
	; source: test_uword_lte.p8:1556   lbl14b:   fail_uword(90)
p8l_lbl14b
	ldy  #>$5a
	lda  #<$5a
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1557   skip14b:
p8l_skip14b
	; source: test_uword_lte.p8:1559   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_186_afterif
	; source: test_uword_lte.p8:1560   fail_uword(91)
	ldy  #>$5b
	lda  #<$5b
	jsr  p8b_main.p8s_fail_uword
label_asm_186_afterif
	; source: test_uword_lte.p8:1563   if x<=cx16.r4+1-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<1
	tax
	tya
	adc  #>1
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_188_else
	; source: test_uword_lte.p8:1564   fail_uword(92)
	ldy  #>$5c
	lda  #<$5c
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_187_afterif
label_asm_188_else
	; source: test_uword_lte.p8:1566   success++
	inc  p8b_main.p8v_success
label_asm_187_afterif
	; source: test_uword_lte.p8:1569   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl15a
	; source: test_uword_lte.p8:1571   goto skip15a
	bra  p8l_skip15a
	; source: test_uword_lte.p8:1572   lbl15a:   fail_uword(93)
p8l_lbl15a
	ldy  #>$5d
	lda  #<$5d
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1573   skip15a:
p8l_skip15a
	; source: test_uword_lte.p8:1575   cx16.r3 = &lbl15b
	lda  #<p8l_lbl15b
	ldy  #>p8l_lbl15b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1576   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1578   goto skip15b
	bra  p8l_skip15b
	; source: test_uword_lte.p8:1579   lbl15b:   fail_uword(94)
p8l_lbl15b
	ldy  #>$5e
	lda  #<$5e
	jsr  p8b_main.p8s_fail_uword
	; source: test_uword_lte.p8:1580   skip15b:
p8l_skip15b
	; source: test_uword_lte.p8:1582   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_189_afterif
	; source: test_uword_lte.p8:1583   fail_uword(95)
	ldy  #>$5f
	lda  #<$5f
	jsr  p8b_main.p8s_fail_uword
label_asm_189_afterif
	; source: test_uword_lte.p8:1586   if x<=cx16.r4+30464-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$7700
	tax
	tya
	adc  #>$7700
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_191_else
	; source: test_uword_lte.p8:1587   fail_uword(96)
	ldy  #>$60
	lda  #<$60
	jsr  p8b_main.p8s_fail_uword
	bra  label_asm_190_afterif
label_asm_191_else
	; source: test_uword_lte.p8:1589   success++
	inc  p8b_main.p8v_success
label_asm_190_afterif
	; source: test_uword_lte.p8:1592   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcs  p8l_lbl16a
	; source: test_uword_lte.p8:1594   goto skip16a
	bra  p8l_skip16a
	; source: test_uword_lte.p8:1595   lbl16a:   success++
p8l_lbl16a
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1596   skip16a:
p8l_skip16a
	; source: test_uword_lte.p8:1598   cx16.r3 = &lbl16b
	lda  #<p8l_lbl16b
	ldy  #>p8l_lbl16b
	sta  cx16.r3
	sty  cx16.r3+1
	; source: test_uword_lte.p8:1599   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  +
	jmp  (cx16.r3)
+
	; source: test_uword_lte.p8:1601   goto skip16b
	bra  p8l_skip16b
	; source: test_uword_lte.p8:1602   lbl16b:   success++
p8l_lbl16b
	inc  p8b_main.p8v_success
	; source: test_uword_lte.p8:1603   skip16b:
p8l_skip16b
	; source: test_uword_lte.p8:1605   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_192_afterif
	; source: test_uword_lte.p8:1606   success++
	inc  p8b_main.p8v_success
label_asm_192_afterif
	; source: test_uword_lte.p8:1609   if x<=cx16.r4+65535-cx16.r5
	lda  cx16.r4
	ldy  cx16.r4+1
	clc
	adc  #<$ffff
	tax
	tya
	adc  #>$ffff
	tay
	txa
	sec
	sbc  cx16.r5
	tax
	tya
	sbc  cx16.r5+1
	tay
	txa
	cmp  p8v_x
	tya
	sbc  p8v_x+1
	bcc  label_asm_194_else
	; source: test_uword_lte.p8:1610   success++
	inc  p8b_main.p8v_success
	bra  label_asm_193_afterif
label_asm_194_else
	; source: test_uword_lte.p8:1612   cx16.r0L++
	inc  cx16.r0L
label_asm_193_afterif
	; source: test_uword_lte.p8:1614   verify_success(46)
	lda  #$2e
	jmp  p8b_main.p8s_verify_success
	; source: test_uword_lte.p8:1235   sub test_cmp_expr() {
; variables
	.section BSS
	.send BSS

; non-zeropage variables without initialization value
	.section BSS
p8v_f4	.fill  5
p8v_f5	.fill  5
p8v_x	.word  ?
	.send BSS
	.pend
prog8_init_vars	.block
	rts
	.bend
	.pend

; ---- block: 'prog8_interned_strings' ----
prog8_interned_strings	.proc

; non-zeropage variables
string_1	; PETSCII:"\nless-equal tests for: "
	.byte  $0d, $4c, $45, $53, $53, $2d, $45, $51, $55, $41, $4c, $20, $54, $45, $53, $54
	.byte  $53, $20, $46, $4f, $52, $3a, $20, $00
string_10	; PETSCII:" **"
	.byte  $20, $2a, $2a, $00
string_2	; PETSCII:"\n<=number: "
	.byte  $0d, $3c, $3d, $4e, $55, $4d, $42, $45, $52, $3a, $20, $00
string_3	; PETSCII:"\n<=var: "
	.byte  $0d, $3c, $3d, $56, $41, $52, $3a, $20, $00
string_4	; PETSCII:"\n<=array[]: "
	.byte  $0d, $3c, $3d, $41, $52, $52, $41, $59, $5b, $5d, $3a, $20, $00
string_5	; PETSCII:"\n<=expr: "
	.byte  $0d, $3c, $3d, $45, $58, $50, $52, $3a, $20, $00
string_7	; PETSCII:" **failed** "
	.byte  $20, $2a, $2a, $46, $41, $49, $4c, $45, $44, $2a, $2a, $20, $00
string_8	; PETSCII:" success, expected "
	.byte  $20, $53, $55, $43, $43, $45, $53, $53, $2c, $20, $45, $58, $50, $45, $43, $54
	.byte  $45, $44, $20, $00
string_9	; PETSCII:" **fail#"
	.byte  $20, $2a, $2a, $46, $41, $49, $4c, $23, $00

	; source: test_uword_lte.p8:14   txt.print("\nless-equal tests for: ")
	; source: test_uword_lte.p8:18   txt.print("\n<=number: ")
	; source: test_uword_lte.p8:20   txt.print("\n<=var: ")
	; source: test_uword_lte.p8:22   txt.print("\n<=array[]: ")
	; source: test_uword_lte.p8:24   txt.print("\n<=expr: ")
	; source: test_uword_lte.p8:33   txt.print(" **failed** ")
	; source: test_uword_lte.p8:35   txt.print(" success, expected ")
	; source: test_uword_lte.p8:41   txt.print(" **fail#")
	; source: test_uword_lte.p8:43   txt.print(" **")
	.pend

; ---- block: 'txt' ----
txt	.proc
	; source: library:/prog8lib/cx16/textio.p8:9   txt {
	DEFAULT_HEIGHT = $3c
	DEFAULT_WIDTH = $50
	VERA_TEXTMATRIX_ADDR = $b000
	VERA_TEXTMATRIX_BANK = 1

	chrout = $ffd2

	; source: library:/prog8lib/cx16/textio.p8:13   const ubyte DEFAULT_WIDTH = 80
	; source: library:/prog8lib/cx16/textio.p8:14   const ubyte DEFAULT_HEIGHT = 60
	; source: library:/prog8lib/cx16/textio.p8:16   const ubyte VERA_TEXTMATRIX_BANK = 1
	; source: library:/prog8lib/cx16/textio.p8:17   const uword VERA_TEXTMATRIX_ADDR = $b000
	; source: library:/prog8lib/shared_textio_functions.p8:1   txt {
	; source: library:/prog8lib/cx16/textio.p8:11   %option no_symbol_prefixing, ignore_unused
	; source: library:/prog8lib/cx16/textio.p8:40   asmsub column(ubyte col @A) clobbers(A, X, Y) {

column	.proc
	; source: library:/prog8lib/cx16/textio.p8:42   %asm {{
        sec
        jsr  cbm.PLOT
        tay
        clc
        jmp  cbm.PLOT
	.pend
	; source: library:/prog8lib/cx16/textio.p8:51   asmsub get_column() -> ubyte @Y {

get_column	.proc
	; source: library:/prog8lib/cx16/textio.p8:52   %asm {{
        sec
        jmp cbm.PLOT
	.pend
	; source: library:/prog8lib/cx16/textio.p8:58   asmsub row(ubyte rownum @A) clobbers(A, X, Y) {

row	.proc
	; source: library:/prog8lib/cx16/textio.p8:60   %asm {{
        sec
        jsr  cbm.PLOT
        tax
        clc
        jmp  cbm.PLOT
	.pend
	; source: library:/prog8lib/cx16/textio.p8:69   asmsub get_row() -> ubyte @X {

get_row	.proc
	; source: library:/prog8lib/cx16/textio.p8:70   %asm {{
        sec
        jmp cbm.PLOT
	.pend
	; source: library:/prog8lib/cx16/textio.p8:88   asmsub  fill_screen (ubyte character @ A, ubyte color @ Y) clobbers(A, X)  {

fill_screen	.proc
	; source: library:/prog8lib/cx16/textio.p8:90   %asm {{
        sty  _ly+1
        pha
        jsr  cbm.SCREEN             ; get dimensions in X/Y
        txa
        lsr  a
        lsr  a
        sta  _lx+1
        lda  #%00010000
        jsr  set_vera_textmatrix_addresses
        pla
_lx     ldx  #0                     ; modified
        phy
_ly     ldy  #1                     ; modified
-       sta  cx16.VERA_DATA0
        sty  cx16.VERA_DATA0
        sta  cx16.VERA_DATA0
        sty  cx16.VERA_DATA0
        sta  cx16.VERA_DATA0
        sty  cx16.VERA_DATA0
        sta  cx16.VERA_DATA0
        sty  cx16.VERA_DATA0
        dex
        bne  -
        ply
        dey
        beq  +
        stz  cx16.VERA_ADDR_L
        inc  cx16.VERA_ADDR_M       ; next line
        bra  _lx
+       rts

set_vera_textmatrix_addresses:
        stz  cx16.VERA_CTRL
        ora  #VERA_TEXTMATRIX_BANK
        sta  cx16.VERA_ADDR_H
        stz  cx16.VERA_ADDR_L       ; start at (0,0)
        lda  #>VERA_TEXTMATRIX_ADDR
        sta  cx16.VERA_ADDR_M
        rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:134   asmsub  clear_screenchars (ubyte character @ A) clobbers(X, Y)  {

clear_screenchars	.proc
	; source: library:/prog8lib/cx16/textio.p8:137   %asm {{
        pha
        jsr  cbm.SCREEN             ; get dimensions in X/Y
        txa
        lsr  a
        lsr  a
        sta  _lx+1
        lda  #%00100000
        jsr  fill_screen.set_vera_textmatrix_addresses
        pla
_lx     ldx  #0                     ; modified
-       sta  cx16.VERA_DATA0
        sta  cx16.VERA_DATA0
        sta  cx16.VERA_DATA0
        sta  cx16.VERA_DATA0
        dex
        bne  -
        dey
        beq  +
        stz  cx16.VERA_ADDR_L
        inc  cx16.VERA_ADDR_M       ; next line
        bra  _lx
+       rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:163   asmsub  clear_screencolors (ubyte color @ A) clobbers(X, Y)  {

clear_screencolors	.proc
	; source: library:/prog8lib/cx16/textio.p8:166   %asm {{
        sta  _la+1
        jsr  cbm.SCREEN             ; get dimensions in X/Y
        txa
        lsr  a
        lsr  a
        sta  _lx+1
        stz  cx16.VERA_CTRL
        lda  #%00100000
        jsr  fill_screen.set_vera_textmatrix_addresses
        inc  cx16.VERA_ADDR_L       ; start at (1,0) - the color attribute byte
_lx     ldx  #0                     ; modified
_la     lda  #0                     ; modified
-       sta  cx16.VERA_DATA0
        sta  cx16.VERA_DATA0
        sta  cx16.VERA_DATA0
        sta  cx16.VERA_DATA0
        dex
        bne  -
        dey
        beq  +
        lda  #1
        sta  cx16.VERA_ADDR_L
        inc  cx16.VERA_ADDR_M       ; next line
        bra  _lx
+       rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:232   asmsub  scroll_left() clobbers(A, X, Y)  {

scroll_left	.proc
	; source: library:/prog8lib/cx16/textio.p8:235   %asm {{
	    jsr  cbm.SCREEN
	    dex
	    stx  _lx+1
        dey
        sty  P8ZP_SCRATCH_B1    ; number of rows to scroll

_nextline
        stz  cx16.VERA_CTRL     ; data port 0: source column
        lda  #%00010000 | VERA_TEXTMATRIX_BANK        ; auto increment 1
        sta  cx16.VERA_ADDR_H
        lda  #2
        sta  cx16.VERA_ADDR_L   ; begin in column 1
        lda  P8ZP_SCRATCH_B1
        clc
        adc  #>VERA_TEXTMATRIX_ADDR
        tay
        sty  cx16.VERA_ADDR_M
        lda  #1
        sta  cx16.VERA_CTRL     ; data port 1: destination column
        lda  #%00010000  | VERA_TEXTMATRIX_BANK         ; auto increment 1
        sta  cx16.VERA_ADDR_H
        stz  cx16.VERA_ADDR_L
        sty  cx16.VERA_ADDR_M

_lx     ldx  #0                ; modified
-       lda  cx16.VERA_DATA0
        sta  cx16.VERA_DATA1    ; copy char
        lda  cx16.VERA_DATA0
        sta  cx16.VERA_DATA1    ; copy color
        dex
        bne  -
        dec  P8ZP_SCRATCH_B1
        bpl  _nextline

        lda  #0
        sta  cx16.VERA_CTRL
	    rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:276   asmsub  scroll_right() clobbers(A,X,Y)  {

scroll_right	.proc
	; source: library:/prog8lib/cx16/textio.p8:279   %asm {{
	    jsr  cbm.SCREEN
	    dex
	    stx  _lx+1
	    txa
	    asl  a
	    dea
	    sta  _rcol+1
	    ina
	    ina
	    sta  _rcol2+1
        dey
        sty  P8ZP_SCRATCH_B1    ; number of rows to scroll

_nextline
        stz  cx16.VERA_CTRL     ; data port 0: source column
        lda  #%00011000 | VERA_TEXTMATRIX_BANK        ; auto decrement 1
        sta  cx16.VERA_ADDR_H
_rcol   lda  #79*2-1            ; modified
        sta  cx16.VERA_ADDR_L   ; begin in rightmost column minus one
        lda  P8ZP_SCRATCH_B1
        clc
        adc  #>VERA_TEXTMATRIX_ADDR
        tay
        sty  cx16.VERA_ADDR_M
        lda  #1
        sta  cx16.VERA_CTRL     ; data port 1: destination column
        lda  #%00011000 | VERA_TEXTMATRIX_BANK        ; auto decrement 1
        sta  cx16.VERA_ADDR_H
_rcol2  lda  #79*2+1           ; modified
        sta  cx16.VERA_ADDR_L
        sty  cx16.VERA_ADDR_M

_lx     ldx  #0                 ; modified
-       lda  cx16.VERA_DATA0
        sta  cx16.VERA_DATA1    ; copy char
        lda  cx16.VERA_DATA0
        sta  cx16.VERA_DATA1    ; copy color
        dex
        bne  -
        dec  P8ZP_SCRATCH_B1
        bpl  _nextline

        lda  #0
        sta  cx16.VERA_CTRL
	    rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:328   asmsub  scroll_up() clobbers(A, X, Y)  {

scroll_up	.proc
	; source: library:/prog8lib/cx16/textio.p8:331   %asm {{
	    jsr  cbm.SCREEN
	    stx  _nextline+1
	    dey
        sty  P8ZP_SCRATCH_B1
        stz  cx16.VERA_CTRL         ; data port 0 is source
        lda  #1 | (>VERA_TEXTMATRIX_ADDR)
        sta  cx16.VERA_ADDR_M       ; start at second line
        stz  cx16.VERA_ADDR_L
        lda  #%00010000 | VERA_TEXTMATRIX_BANK
        sta  cx16.VERA_ADDR_H       ; enable auto increment by 1, bank 0.

        lda  #1
        sta  cx16.VERA_CTRL         ; data port 1 is destination
        lda  #>VERA_TEXTMATRIX_ADDR
        sta  cx16.VERA_ADDR_M       ; start at top line
        stz  cx16.VERA_ADDR_L
        lda  #%00010000 | VERA_TEXTMATRIX_BANK
        sta  cx16.VERA_ADDR_H       ; enable auto increment by 1, bank 0.

_nextline
        ldx  #80        ; modified
-       lda  cx16.VERA_DATA0
        sta  cx16.VERA_DATA1        ; copy char
        lda  cx16.VERA_DATA0
        sta  cx16.VERA_DATA1        ; copy color
        dex
        bne  -
        dec  P8ZP_SCRATCH_B1
        beq  +
        stz  cx16.VERA_CTRL         ; data port 0
        stz  cx16.VERA_ADDR_L
        inc  cx16.VERA_ADDR_M
        lda  #1
        sta  cx16.VERA_CTRL         ; data port 1
        stz  cx16.VERA_ADDR_L
        inc  cx16.VERA_ADDR_M
        bra  _nextline

+       lda  #0
        sta  cx16.VERA_CTRL
	    rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:376   asmsub  scroll_down() clobbers(A, X, Y)  {

scroll_down	.proc
	; source: library:/prog8lib/cx16/textio.p8:379   %asm {{
	    jsr  cbm.SCREEN
	    stx  _nextline+1
	    dey
        sty  P8ZP_SCRATCH_B1
        stz  cx16.VERA_CTRL         ; data port 0 is source
        dey
        tya
        clc
        adc  #>VERA_TEXTMATRIX_ADDR
        sta  cx16.VERA_ADDR_M       ; start at line before bottom line
        stz  cx16.VERA_ADDR_L
        lda  #%00010000 | VERA_TEXTMATRIX_BANK
        sta  cx16.VERA_ADDR_H       ; enable auto increment by 1, bank 0.

        lda  #1
        sta  cx16.VERA_CTRL         ; data port 1 is destination
        iny
        tya
        clc
        adc  #>VERA_TEXTMATRIX_ADDR
        sta  cx16.VERA_ADDR_M       ; start at bottom line
        stz  cx16.VERA_ADDR_L
        lda  #%00010000 | VERA_TEXTMATRIX_BANK
        sta  cx16.VERA_ADDR_H       ; enable auto increment by 1, bank 0.

_nextline
        ldx  #80        ; modified
-       lda  cx16.VERA_DATA0
        sta  cx16.VERA_DATA1        ; copy char
        lda  cx16.VERA_DATA0
        sta  cx16.VERA_DATA1        ; copy color
        dex
        bne  -
        dec  P8ZP_SCRATCH_B1
        beq  +
        stz  cx16.VERA_CTRL         ; data port 0
        stz  cx16.VERA_ADDR_L
        dec  cx16.VERA_ADDR_M
        lda  #1
        sta  cx16.VERA_CTRL         ; data port 1
        stz  cx16.VERA_ADDR_L
        dec  cx16.VERA_ADDR_M
        bra  _nextline

+       lda  #0
        sta  cx16.VERA_CTRL
	    rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:430   romsub $FFD2 = chrout(ubyte character @ A)    ; for consistency. You can also use cbm.CHROUT directly ofcourse. Note: takes a PETSCII encoded character.

	; source: library:/prog8lib/cx16/textio.p8:432   asmsub  print (str text @ AY) clobbers(A,Y)  {

print	.proc
	; source: library:/prog8lib/cx16/textio.p8:437   %asm {{
		sta  P8ZP_SCRATCH_B1
		sty  P8ZP_SCRATCH_REG
		ldy  #0
-		lda  (P8ZP_SCRATCH_B1),y
		beq  +
		jsr  cbm.CHROUT
		iny
		bne  -
+		rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:450   asmsub  print_ub0  (ubyte value @ A) clobbers(A,X,Y)  {

print_ub0	.proc
	; source: library:/prog8lib/cx16/textio.p8:452   %asm {{
		jsr  conv.ubyte2decimal
		pha
		tya
		jsr  cbm.CHROUT
		pla
		jsr  cbm.CHROUT
		txa
		jmp  cbm.CHROUT
	.pend
	; source: library:/prog8lib/cx16/textio.p8:464   asmsub  print_ub  (ubyte value @ A) clobbers(A,X,Y)  {

print_ub	.proc
	; source: library:/prog8lib/cx16/textio.p8:466   %asm {{
		jsr  conv.ubyte2decimal
_print_byte_digits
		pha
		cpy  #'0'
		beq  +
		tya
		jsr  cbm.CHROUT
		pla
		jsr  cbm.CHROUT
		bra  _ones
+       pla
        cmp  #'0'
        beq  _ones
        jsr  cbm.CHROUT
_ones   txa
		jmp  cbm.CHROUT
	.pend
	; source: library:/prog8lib/cx16/textio.p8:486   asmsub  print_b  (byte value @ A) clobbers(A,X,Y)  {

print_b	.proc
	; source: library:/prog8lib/cx16/textio.p8:488   %asm {{
		pha
		cmp  #0
		bpl  +
		lda  #'-'
		jsr  cbm.CHROUT
+		pla
		jsr  conv.byte2decimal
		bra  print_ub._print_byte_digits
	.pend
	; source: library:/prog8lib/cx16/textio.p8:500   asmsub  print_ubhex  (ubyte value @ A, bool prefix @ Pc) clobbers(A,X,Y)  {

print_ubhex	.proc
	; source: library:/prog8lib/cx16/textio.p8:502   %asm {{
		bcc  +
		pha
		lda  #'$'
		jsr  cbm.CHROUT
		pla
+		jsr  conv.ubyte2hex
		jsr  cbm.CHROUT
		tya
		jmp  cbm.CHROUT
	.pend
	; source: library:/prog8lib/cx16/textio.p8:515   asmsub  print_ubbin  (ubyte value @ A, bool prefix @ Pc) clobbers(A,X,Y)  {

print_ubbin	.proc
	; source: library:/prog8lib/cx16/textio.p8:517   %asm {{
		sta  P8ZP_SCRATCH_B1
		bcc  +
		lda  #'%'
		jsr  cbm.CHROUT
+		ldy  #8
-		lda  #'0'
		asl  P8ZP_SCRATCH_B1
		bcc  +
		lda  #'1'
+		jsr  cbm.CHROUT
		dey
		bne  -
		rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:534   asmsub  print_uwbin  (uword value @ AY, bool prefix @ Pc) clobbers(A,X,Y)  {

print_uwbin	.proc
	; source: library:/prog8lib/cx16/textio.p8:536   %asm {{
		pha
		tya
		jsr  print_ubbin
		pla
		clc
		bra  print_ubbin
	.pend
	; source: library:/prog8lib/cx16/textio.p8:546   asmsub  print_uwhex  (uword value @ AY, bool prefix @ Pc) clobbers(A,X,Y)  {

print_uwhex	.proc
	; source: library:/prog8lib/cx16/textio.p8:549   %asm {{
		pha
		tya
		jsr  print_ubhex
		pla
		clc
		bra  print_ubhex
	.pend
	; source: library:/prog8lib/cx16/textio.p8:559   asmsub  print_uw0  (uword value @ AY) clobbers(A,X,Y)  {

print_uw0	.proc
	; source: library:/prog8lib/cx16/textio.p8:561   %asm {{
		jsr  conv.uword2decimal
		ldy  #0
-		lda  conv.uword2decimal.decTenThousands,y
        beq  +
		jsr  cbm.CHROUT
		iny
		bne  -
+		rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:573   asmsub  print_uw  (uword value @ AY) clobbers(A,X,Y)  {

print_uw	.proc
	; source: library:/prog8lib/cx16/textio.p8:575   %asm {{
		jsr  conv.uword2decimal
		ldy  #0
-		lda  conv.uword2decimal.decTenThousands,y
		beq  _allzero
		cmp  #'0'
		bne  _gotdigit
		iny
		bne  -

_gotdigit
		jsr  cbm.CHROUT
		iny
		lda  conv.uword2decimal.decTenThousands,y
		bne  _gotdigit
		rts
_allzero
        lda  #'0'
        jmp  cbm.CHROUT
	.pend
	; source: library:/prog8lib/cx16/textio.p8:597   asmsub  print_w  (word value @ AY) clobbers(A,X,Y)  {

print_w	.proc
	; source: library:/prog8lib/cx16/textio.p8:599   %asm {{
		cpy  #0
		bpl  +
		pha
		lda  #'-'
		jsr  cbm.CHROUT
		tya
		eor  #255
		tay
		pla
		eor  #255
		ina
		bne +
		iny
+		bra  print_uw
	.pend
	; source: library:/prog8lib/cx16/textio.p8:617   asmsub  input_chars  (uword buffer @ AY) clobbers(A) -> ubyte @ Y  {

input_chars	.proc
	; source: library:/prog8lib/cx16/textio.p8:622   %asm {{
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		ldy  #0				; char counter = 0
-		jsr  cbm.CHRIN
		cmp  #$0d			; return (ascii 13) pressed?
		beq  +				; yes, end.
		sta  (P8ZP_SCRATCH_W1),y	; else store char in buffer
		iny
		bne  -
+		lda  #0
		sta  (P8ZP_SCRATCH_W1),y	; finish string with 0 byte
		rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:639   asmsub  setchr  (ubyte col @X, ubyte row @Y, ubyte character @A) clobbers(A)  {

setchr	.proc
	; source: library:/prog8lib/cx16/textio.p8:641   %asm {{
            pha
            stz  cx16.VERA_CTRL
            lda  #VERA_TEXTMATRIX_BANK
            sta  cx16.VERA_ADDR_H
            txa
            asl  a
            sta  cx16.VERA_ADDR_L
            tya
            ; clc
            adc  #>VERA_TEXTMATRIX_ADDR
            sta  cx16.VERA_ADDR_M
            pla
            sta  cx16.VERA_DATA0
            rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:659   asmsub  getchr  (ubyte col @A, ubyte row @Y) -> ubyte @ A {

getchr	.proc
	; source: library:/prog8lib/cx16/textio.p8:661   %asm  {{
            asl  a
            pha
            stz  cx16.VERA_CTRL
            lda  #VERA_TEXTMATRIX_BANK
            sta  cx16.VERA_ADDR_H
            pla
            sta  cx16.VERA_ADDR_L
            tya
            ; clc
            adc  #>VERA_TEXTMATRIX_ADDR
            sta  cx16.VERA_ADDR_M
            lda  cx16.VERA_DATA0
            rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:678   asmsub  setclr  (ubyte col @X, ubyte row @Y, ubyte color @A) clobbers(A)  {

setclr	.proc
	; source: library:/prog8lib/cx16/textio.p8:682   %asm {{
            pha
            stz  cx16.VERA_CTRL
            lda  #VERA_TEXTMATRIX_BANK
            sta  cx16.VERA_ADDR_H
            txa
            asl  a
            ina
            sta  cx16.VERA_ADDR_L
            tya
            ; clc
            adc  #>VERA_TEXTMATRIX_ADDR
            sta  cx16.VERA_ADDR_M
            pla
            sta  cx16.VERA_DATA0
            rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:701   asmsub  getclr  (ubyte col @A, ubyte row @Y) -> ubyte @ A {

getclr	.proc
	; source: library:/prog8lib/cx16/textio.p8:703   %asm  {{
            asl  a
            ina
            pha
            stz  cx16.VERA_CTRL
            lda  #VERA_TEXTMATRIX_BANK
            sta  cx16.VERA_ADDR_H
            pla
            sta  cx16.VERA_ADDR_L
            tya
            ; clc
            adc  #>VERA_TEXTMATRIX_ADDR
            sta  cx16.VERA_ADDR_M
            lda  cx16.VERA_DATA0
            rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:778   asmsub  plot  (ubyte col @ Y, ubyte row @ X) {

plot	.proc
	; source: library:/prog8lib/cx16/textio.p8:779   %asm  {{
		clc
		jmp  cbm.PLOT
	.pend
	; source: library:/prog8lib/cx16/textio.p8:785   asmsub width() clobbers(X,Y) -> ubyte @A {

width	.proc
	; source: library:/prog8lib/cx16/textio.p8:787   %asm {{
        jsr  cbm.SCREEN
        txa
        rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:794   asmsub height() clobbers(X, Y) -> ubyte @A {

height	.proc
	; source: library:/prog8lib/cx16/textio.p8:796   %asm {{
        jsr  cbm.SCREEN
        tya
        rts
	.pend
	; source: library:/prog8lib/cx16/textio.p8:803   asmsub waitkey() -> ubyte @A {

waitkey	.proc
	; source: library:/prog8lib/cx16/textio.p8:804   %asm {{
-       jsr cbm.GETIN
        beq -
        rts
	.pend
	; source: library:/prog8lib/shared_textio_functions.p8:5   asmsub petscii2scr(ubyte petscii_char @A) -> ubyte @A {

petscii2scr	.proc
	; source: library:/prog8lib/shared_textio_functions.p8:7   %asm {{
            sta  P8ZP_SCRATCH_REG
            lsr  a
            lsr  a
            lsr  a
            lsr  a
            lsr  a
            tax
            lda  _offsets,x
            eor  P8ZP_SCRATCH_REG
            rts
_offsets    .byte  128, 0, 64, 32, 64, 192, 128, 128
	.pend
	; source: library:/prog8lib/shared_textio_functions.p8:22   asmsub petscii2scr_str(str petscii_string @AY) {

petscii2scr_str	.proc
	; source: library:/prog8lib/shared_textio_functions.p8:24   %asm {{
            sta  P8ZP_SCRATCH_W1
            sty  P8ZP_SCRATCH_W1+1
            ldy  #0
-           lda  (P8ZP_SCRATCH_W1),y
            beq  +
            jsr  petscii2scr
            sta  (P8ZP_SCRATCH_W1),y
            iny
            bne  -
+           rts
	.pend
	.pend

; ---- block: 'cbm' ----
cbm	.proc
	; source: library:/prog8lib/cx16/syslib.p8:6   cbm {

	CINT = $ff81
	IOINIT = $ff84
	RAMTAS = $ff87
	RESTOR = $ff8a
	VECTOR = $ff8d
	SETMSG = $ff90
	SECOND = $ff93
	TKSA = $ff96
	MEMTOP = $ff99
	MEMBOT = $ff9c
	SCNKEY = $ff9f
	SETTMO = $ffa2
	ACPTR = $ffa5
	CIOUT = $ffa8
	UNTLK = $ffab
	UNLSN = $ffae
	LISTEN = $ffb1
	TALK = $ffb4
	READST = $ffb7
	SETLFS = $ffba
	SETNAM = $ffbd
	OPEN = $ffc0
	CLOSE = $ffc3
	CHKIN = $ffc6
	CHKOUT = $ffc9
	CLRCHN = $ffcc
	CHRIN = $ffcf
	CHROUT = $ffd2
	LOAD = $ffd5
	SAVE = $ffd8
	SETTIM = $ffdb
	RDTIM = $ffde
	STOP = $ffe1
	GETIN = $ffe4
	CLALL = $ffe7
	UDTIM = $ffea
	SCREEN = $ffed
	PLOT = $fff0
	IOBASE = $fff3

	; source: library:/prog8lib/cx16/syslib.p8:14   romsub $FF81 = CINT() clobbers(A,X,Y)                           ; (alias: SCINIT) initialize screen editor and video chip, including resetting to the default color palette. Note: also sets the video mode back to VGA

	; source: library:/prog8lib/cx16/syslib.p8:15   romsub $FF84 = IOINIT() clobbers(A, X)                          ; initialize I/O devices (CIA, IRQ, ...)

	; source: library:/prog8lib/cx16/syslib.p8:16   romsub $FF87 = RAMTAS() clobbers(A,X,Y)                         ; initialize RAM, screen

	; source: library:/prog8lib/cx16/syslib.p8:17   romsub $FF8A = RESTOR() clobbers(A,X,Y)                         ; restore default I/O vectors

	; source: library:/prog8lib/cx16/syslib.p8:18   romsub $FF8D = VECTOR(uword userptr @ XY, bool dir @ Pc) clobbers(A,Y)     ; read/set I/O vector table

	; source: library:/prog8lib/cx16/syslib.p8:19   romsub $FF90 = SETMSG(ubyte value @ A)                          ; set Kernal message control flag

	; source: library:/prog8lib/cx16/syslib.p8:20   romsub $FF93 = SECOND(ubyte address @ A) clobbers(A)            ; (alias: LSTNSA) send secondary address after LISTEN

	; source: library:/prog8lib/cx16/syslib.p8:21   romsub $FF96 = TKSA(ubyte address @ A) clobbers(A)              ; (alias: TALKSA) send secondary address after TALK

	; source: library:/prog8lib/cx16/syslib.p8:22   romsub $FF99 = MEMTOP(uword address @ XY, bool dir @ Pc) -> uword @ XY     ; read/set top of memory  pointer.   NOTE: as a Cx16 extension, also returns the number of RAM memory banks in register A !  See cx16.numbanks()

	; source: library:/prog8lib/cx16/syslib.p8:23   romsub $FF9C = MEMBOT(uword address @ XY, bool dir @ Pc) -> uword @ XY     ; read/set bottom of memory  pointer

	; source: library:/prog8lib/cx16/syslib.p8:24   romsub $FF9F = SCNKEY() clobbers(A,X,Y)                         ; scan the keyboard, also called  kbd_scan

	; source: library:/prog8lib/cx16/syslib.p8:25   romsub $FFA2 = SETTMO(ubyte timeout @ A)                        ; set time-out flag for IEEE bus

	; source: library:/prog8lib/cx16/syslib.p8:26   romsub $FFA5 = ACPTR() -> ubyte @ A                             ; (alias: IECIN) input byte from serial bus

	; source: library:/prog8lib/cx16/syslib.p8:27   romsub $FFA8 = CIOUT(ubyte databyte @ A)                        ; (alias: IECOUT) output byte to serial bus

	; source: library:/prog8lib/cx16/syslib.p8:28   romsub $FFAB = UNTLK() clobbers(A)                              ; command serial bus device to UNTALK

	; source: library:/prog8lib/cx16/syslib.p8:29   romsub $FFAE = UNLSN() clobbers(A)                              ; command serial bus device to UNLISTEN

	; source: library:/prog8lib/cx16/syslib.p8:30   romsub $FFB1 = LISTEN(ubyte device @ A) clobbers(A)             ; command serial bus device to LISTEN

	; source: library:/prog8lib/cx16/syslib.p8:31   romsub $FFB4 = TALK(ubyte device @ A) clobbers(A)               ; command serial bus device to TALK

	; source: library:/prog8lib/cx16/syslib.p8:32   romsub $FFB7 = READST() -> ubyte @ A                            ; read I/O status word  (use CLEARST to reset it to 0)

	; source: library:/prog8lib/cx16/syslib.p8:33   romsub $FFBA = SETLFS(ubyte logical @ A, ubyte device @ X, ubyte secondary @ Y)   ; set logical file parameters

	; source: library:/prog8lib/cx16/syslib.p8:34   romsub $FFBD = SETNAM(ubyte namelen @ A, str filename @ XY)     ; set filename parameters

	; source: library:/prog8lib/cx16/syslib.p8:35   romsub $FFC0 = OPEN() clobbers(X,Y) -> bool @Pc, ubyte @A      ; (via 794 ($31A)) open a logical file

	; source: library:/prog8lib/cx16/syslib.p8:36   romsub $FFC3 = CLOSE(ubyte logical @ A) clobbers(A,X,Y)         ; (via 796 ($31C)) close a logical file

	; source: library:/prog8lib/cx16/syslib.p8:37   romsub $FFC6 = CHKIN(ubyte logical @ X) clobbers(A,X) -> bool @Pc    ; (via 798 ($31E)) define an input channel

	; source: library:/prog8lib/cx16/syslib.p8:38   romsub $FFC9 = CHKOUT(ubyte logical @ X) clobbers(A,X)          ; (via 800 ($320)) define an output channel

	; source: library:/prog8lib/cx16/syslib.p8:39   romsub $FFCC = CLRCHN() clobbers(A,X)                           ; (via 802 ($322)) restore default devices

	; source: library:/prog8lib/cx16/syslib.p8:40   romsub $FFCF = CHRIN() clobbers(X, Y) -> ubyte @ A   ; (via 804 ($324)) input a character (for keyboard, read a whole line from the screen) A=byte read.

	; source: library:/prog8lib/cx16/syslib.p8:41   romsub $FFD2 = CHROUT(ubyte character @ A)                           ; (via 806 ($326)) output a character

	; source: library:/prog8lib/cx16/syslib.p8:42   romsub $FFD5 = LOAD(ubyte verify @ A, uword address @ XY) -> bool @Pc, ubyte @ A, uword @ XY     ; (via 816 ($330)) load from device

	; source: library:/prog8lib/cx16/syslib.p8:43   romsub $FFD8 = SAVE(ubyte zp_startaddr @ A, uword endaddr @ XY) clobbers (X, Y) -> bool @ Pc, ubyte @ A       ; (via 818 ($332)) save to a device.  See also BSAVE

	; source: library:/prog8lib/cx16/syslib.p8:44   romsub $FFDB = SETTIM(ubyte low @ A, ubyte middle @ X, ubyte high @ Y)      ; set the software clock

	; source: library:/prog8lib/cx16/syslib.p8:45   romsub $FFDE = RDTIM() -> ubyte @ A, ubyte @ X, ubyte @ Y       ; read the software clock (A=lo,X=mid,Y=high)

	; source: library:/prog8lib/cx16/syslib.p8:46   romsub $FFE1 = STOP() clobbers(X) -> bool @ Pz, ubyte @ A      ; (via 808 ($328)) check the STOP key (and some others in A)

	; source: library:/prog8lib/cx16/syslib.p8:47   romsub $FFE4 = GETIN() clobbers(X,Y) -> bool @Pc, ubyte @ A    ; (via 810 ($32A)) get a character

	; source: library:/prog8lib/cx16/syslib.p8:48   romsub $FFE7 = CLALL() clobbers(A,X)                            ; (via 812 ($32C)) close all files

	; source: library:/prog8lib/cx16/syslib.p8:49   romsub $FFEA = UDTIM() clobbers(A,X)                            ; update the software clock

	; source: library:/prog8lib/cx16/syslib.p8:50   romsub $FFED = SCREEN() -> ubyte @ X, ubyte @ Y                 ; read number of screen rows and columns

	; source: library:/prog8lib/cx16/syslib.p8:51   romsub $FFF0 = PLOT(ubyte col @ Y, ubyte row @ X, bool dir @ Pc) -> ubyte @ X, ubyte @ Y       ; read/set position of cursor on screen.  Use txt.plot for a 'safe' wrapper that preserves X.

	; source: library:/prog8lib/cx16/syslib.p8:52   romsub $FFF3 = IOBASE() -> uword @ XY                           ; read base address of I/O devices

	; source: library:/prog8lib/cx16/syslib.p8:56   asmsub STOP2() clobbers(X) -> bool @A  {

STOP2	.proc
	; source: library:/prog8lib/cx16/syslib.p8:58   %asm {{
        jsr  cbm.STOP
        beq  +
        lda  #0
        rts
+       lda  #1
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:68   asmsub RDTIM16() clobbers(X) -> uword @AY {

RDTIM16	.proc
	; source: library:/prog8lib/cx16/syslib.p8:70   %asm {{
        php
        sei
        jsr  cbm.RDTIM
        plp
        cli
        pha
        txa
        tay
        pla
        rts
	.pend
	.pend

; ---- block: 'cx16' ----
cx16	.proc
	; source: library:/prog8lib/cx16/syslib.p8:95   cx16 {
	r0 = 2
	r0s = 2
	r0L = 2
	r0sL = 2
	r0H = 3
	r0sH = 3
	r1 = 4
	r1s = 4
	r1L = 4
	r1sL = 4
	r1H = 5
	r1sH = 5
	r2 = 6
	r2s = 6
	r2L = 6
	r2sL = 6
	r2H = 7
	r2sH = 7
	r3 = 8
	r3s = 8
	r3L = 8
	r3sL = 8
	r3H = 9
	r3sH = 9
	r4 = 10
	r4s = 10
	r4L = 10
	r4sL = 10
	r4H = 11
	r4sH = 11
	r5 = 12
	r5s = 12
	r5L = 12
	r5sL = 12
	r5H = 13
	r5sH = 13
	r6 = 14
	r6s = 14
	r6L = 14
	r6sL = 14
	r6H = 15
	r6sH = 15
	r7 = $10
	r7s = $10
	r7L = $10
	r7sL = $10
	r7H = $11
	r7sH = $11
	r8 = $12
	r8s = $12
	r8L = $12
	r8sL = $12
	r8H = $13
	r8sH = $13
	r9 = $14
	r9s = $14
	r9L = $14
	r9sL = $14
	r9H = $15
	r9sH = $15
	r10 = $16
	r10s = $16
	r10L = $16
	r10sL = $16
	r10H = $17
	r10sH = $17
	r11 = $18
	r11s = $18
	r11L = $18
	r11sL = $18
	r11H = $19
	r11sH = $19
	r12 = $1a
	r12s = $1a
	r12L = $1a
	r12sL = $1a
	r12H = $1b
	r12sH = $1b
	r13 = $1c
	r13s = $1c
	r13L = $1c
	r13sL = $1c
	r13H = $1d
	r13sH = $1d
	r14 = $1e
	r14s = $1e
	r14L = $1e
	r14sL = $1e
	r14H = $1f
	r14sH = $1f
	r15 = $20
	r15s = $20
	r15L = $20
	r15sL = $20
	r15H = $21
	r15sH = $21
	IERROR = $0300
	IMAIN = $0302
	ICRNCH = $0304
	IQPLOP = $0306
	IGONE = $0308
	IEVAL = $030a
	SAREG = $030c
	SXREG = $030d
	SYREG = $030e
	SPREG = $030f
	USRADD = $0311
	CINV = $0314
	CBINV = $0316
	NMINV = $0318
	IOPEN = $031a
	ICLOSE = $031c
	ICHKIN = $031e
	ICKOUT = $0320
	ICLRCH = $0322
	IBASIN = $0324
	IBSOUT = $0326
	ISTOP = $0328
	IGETIN = $032a
	ICLALL = $032c
	KEYHDL = $032e
	ILOAD = $0330
	ISAVE = $0332
	via1prb = $9f00
	via1pra = $9f01
	via1ddrb = $9f02
	via1ddra = $9f03
	via1t1l = $9f04
	via1t1h = $9f05
	via1t1ll = $9f06
	via1t1lh = $9f07
	via1t2l = $9f08
	via1t2h = $9f09
	via1sr = $9f0a
	via1acr = $9f0b
	via1pcr = $9f0c
	via1ifr = $9f0d
	via1ier = $9f0e
	via1ora = $9f0f
	via2prb = $9f10
	via2pra = $9f11
	via2ddrb = $9f12
	via2ddra = $9f13
	via2t1l = $9f14
	via2t1h = $9f15
	via2t1ll = $9f16
	via2t1lh = $9f17
	via2t2l = $9f18
	via2t2h = $9f19
	via2sr = $9f1a
	via2acr = $9f1b
	via2pcr = $9f1c
	via2ifr = $9f1d
	via2ier = $9f1e
	via2ora = $9f1f
	VERA_ADDR_L = $9f20
	VERA_ADDR = $9f20
	VERA_ADDR_M = $9f21
	VERA_ADDR_H = $9f22
	VERA_DATA0 = $9f23
	VERA_DATA1 = $9f24
	VERA_CTRL = $9f25
	VERA_IEN = $9f26
	VERA_ISR = $9f27
	VERA_IRQLINE_L = $9f28
	VERA_SCANLINE_L = $9f28
	VERA_DC_VIDEO = $9f29
	VERA_DC_HSTART = $9f29
	VERA_DC_VER0 = $9f29
	VERA_FX_CTRL = $9f29
	VERA_FX_X_INCR_L = $9f29
	VERA_FX_X_INCR = $9f29
	VERA_FX_X_POS_L = $9f29
	VERA_FX_X_POS = $9f29
	VERA_FX_X_POS_S = $9f29
	VERA_FX_CACHE_L = $9f29
	VERA_FX_ACCUM_RESET = $9f29
	VERA_DC_HSCALE = $9f2a
	VERA_DC_HSTOP = $9f2a
	VERA_DC_VER1 = $9f2a
	VERA_FX_TILEBASE = $9f2a
	VERA_FX_X_INCR_H = $9f2a
	VERA_FX_X_POS_H = $9f2a
	VERA_FX_Y_POS_S = $9f2a
	VERA_FX_CACHE_M = $9f2a
	VERA_FX_ACCUM = $9f2a
	VERA_DC_VSCALE = $9f2b
	VERA_DC_VSTART = $9f2b
	VERA_DC_VER2 = $9f2b
	VERA_FX_MAPBASE = $9f2b
	VERA_FX_Y_INCR_L = $9f2b
	VERA_FX_Y_INCR = $9f2b
	VERA_FX_Y_POS_L = $9f2b
	VERA_FX_Y_POS = $9f2b
	VERA_FX_POLY_FILL_L = $9f2b
	VERA_FX_POLY_FILL = $9f2b
	VERA_FX_CACHE_H = $9f2b
	VERA_DC_BORDER = $9f2c
	VERA_DC_VSTOP = $9f2c
	VERA_DC_VER3 = $9f2c
	VERA_FX_MULT = $9f2c
	VERA_FX_Y_INCR_H = $9f2c
	VERA_FX_Y_POS_H = $9f2c
	VERA_FX_POLY_FILL_H = $9f2c
	VERA_FX_CACHE_U = $9f2c
	VERA_L0_CONFIG = $9f2d
	VERA_L0_MAPBASE = $9f2e
	VERA_L0_TILEBASE = $9f2f
	VERA_L0_HSCROLL_L = $9f30
	VERA_L0_HSCROLL = $9f30
	VERA_L0_HSCROLL_H = $9f31
	VERA_L0_VSCROLL_L = $9f32
	VERA_L0_VSCROLL = $9f32
	VERA_L0_VSCROLL_H = $9f33
	VERA_L1_CONFIG = $9f34
	VERA_L1_MAPBASE = $9f35
	VERA_L1_TILEBASE = $9f36
	VERA_L1_HSCROLL_L = $9f37
	VERA_L1_HSCROLL = $9f37
	VERA_L1_HSCROLL_H = $9f38
	VERA_L1_VSCROLL_L = $9f39
	VERA_L1_VSCROLL = $9f39
	VERA_L1_VSCROLL_H = $9f3a
	VERA_AUDIO_CTRL = $9f3b
	VERA_AUDIO_RATE = $9f3c
	VERA_AUDIO_DATA = $9f3d
	VERA_SPI_DATA = $9f3e
	VERA_SPI_CTRL = $9f3f
	YM_ADDRESS = $9f40
	YM_DATA = $9f41
	edkeyvec = $ac03
	edkeybk = $ac05
	NMI_VEC = $fffa
	RESET_VEC = $fffc
	IRQ_VEC = $fffe
	VERA_BASE = $9f20
	VIA1_BASE = $9f00
	VIA2_BASE = $9f10
	extdev = $9f60

	CLOSE_ALL = $ff4a
	LKUPLA = $ff59
	LKUPSA = $ff5c
	screen_mode = $ff5f
	screen_set_charset = $ff62
	JSRFAR = $ff6e
	fetch = $ff74
	stash = $ff77
	PRIMM = $ff7d
	GRAPH_init = $ff20
	GRAPH_clear = $ff23
	GRAPH_set_window = $ff26
	GRAPH_set_colors = $ff29
	GRAPH_draw_line = $ff2c
	GRAPH_draw_rect = $ff2f
	GRAPH_move_rect = $ff32
	GRAPH_draw_oval = $ff35
	GRAPH_draw_image = $ff38
	GRAPH_set_font = $ff3b
	GRAPH_get_char_size = $ff3e
	GRAPH_put_char = $ff41
	GRAPH_put_next_char = $ff41
	FB_init = $fef6
	FB_get_info = $fef9
	FB_set_palette = $fefc
	FB_cursor_position = $feff
	FB_cursor_next_line = $ff02
	FB_get_pixel = $ff05
	FB_get_pixels = $ff08
	FB_set_pixel = $ff0b
	FB_set_pixels = $ff0e
	FB_set_8_pixels = $ff11
	FB_set_8_pixels_opaque = $ff14
	FB_fill_pixels = $ff17
	FB_filter_pixels = $ff1a
	FB_move_pixels = $ff1d
	BSAVE = $feba
	i2c_read_byte = $fec6
	i2c_write_byte = $fec9
	sprite_set_image = $fef0
	sprite_set_position = $fef3
	memory_fill = $fee4
	memory_copy = $fee7
	memory_crc = $feea
	memory_decompress = $feed
	console_init = $fedb
	console_put_char = $fede
	console_get_char = $fee1
	console_put_image = $fed8
	console_set_paging_message = $fed5
	entropy_get = $fecf
	monitor = $fecc
	MACPTR = $ff44
	MCIOUT = $feb1
	enter_basic = $ff47
	clock_set_date_time = $ff4d
	clock_get_date_time = $ff50
	kbdbuf_peek = $febd
	kbdbuf_peek2 = $febd
	kbdbuf_get_modifiers = $fec0
	kbdbuf_put = $fec3
	keymap = $fed2
	mouse_config = $ff68
	mouse_get = $ff6b
	mouse_scan = $ff71
	joystick_scan = $ff53
	joystick_get = $ff56
	joystick_get2 = $ff56
	x16edit_default = $c000
	x16edit_loadfile = $c003
	x16edit_loadfile_options = $c006
	audio_init = $c09f
	bas_fmfreq = $c000
	bas_fmnote = $c003
	bas_fmplaystring = $c006
	bas_fmvib = $c009
	bas_playstringvoice = $c00c
	bas_psgfreq = $c00f
	bas_psgnote = $c012
	bas_psgwav = $c015
	bas_psgplaystring = $c018
	bas_fmchordstring = $c08d
	bas_psgchordstring = $c090
	notecon_bas2fm = $c01b
	notecon_bas2midi = $c01e
	notecon_bas2psg = $c021
	notecon_fm2bas = $c024
	notecon_fm2midi = $c027
	notecon_fm2psg = $c02a
	notecon_freq2bas = $c02d
	notecon_freq2fm = $c030
	notecon_freq2midi = $c033
	notecon_freq2psg = $c036
	notecon_midi2bas = $c039
	notecon_midi2fm = $c03c
	notecon_midi2psg = $c03f
	notecon_psg2bas = $c042
	notecon_psg2fm = $c045
	notecon_psg2midi = $c048
	psg_init = $c04b
	psg_playfreq = $c04e
	psg_read = $c051
	psg_setatten = $c054
	psg_setfreq = $c057
	psg_setpan = $c05a
	psg_setvol = $c05d
	psg_write = $c060
	psg_write_fast = $c0a2
	psg_getatten = $c093
	psg_getpan = $c096
	ym_init = $c063
	ym_loaddefpatches = $c066
	ym_loadpatch = $c069
	ym_loadpatchlfn = $c06c
	ym_playdrum = $c06f
	ym_playnote = $c072
	ym_setatten = $c075
	ym_setdrum = $c078
	ym_setnote = $c07b
	ym_setpan = $c07e
	ym_read = $c081
	ym_release = $c084
	ym_trigger = $c087
	ym_write = $c08a
	ym_getatten = $c099
	ym_getpan = $c09c
	ym_get_chip_type = $c0a5

	; source: library:/prog8lib/cx16/syslib.p8:98   &uword  IERROR      = $0300
	; source: library:/prog8lib/cx16/syslib.p8:99   &uword  IMAIN       = $0302
	; source: library:/prog8lib/cx16/syslib.p8:100   &uword  ICRNCH      = $0304
	; source: library:/prog8lib/cx16/syslib.p8:101   &uword  IQPLOP      = $0306
	; source: library:/prog8lib/cx16/syslib.p8:102   &uword  IGONE       = $0308
	; source: library:/prog8lib/cx16/syslib.p8:103   &uword  IEVAL       = $030a
	; source: library:/prog8lib/cx16/syslib.p8:104   &ubyte  SAREG       = $030c     ; register storage for A for SYS calls
	; source: library:/prog8lib/cx16/syslib.p8:105   &ubyte  SXREG       = $030d     ; register storage for X for SYS calls
	; source: library:/prog8lib/cx16/syslib.p8:106   &ubyte  SYREG       = $030e     ; register storage for Y for SYS calls
	; source: library:/prog8lib/cx16/syslib.p8:107   &ubyte  SPREG       = $030f     ; register storage for P (status register) for SYS calls
	; source: library:/prog8lib/cx16/syslib.p8:108   &uword  USRADD      = $0311     ; vector for the USR() basic command
	; source: library:/prog8lib/cx16/syslib.p8:110   &uword  CINV        = $0314     ; IRQ vector (in ram)
	; source: library:/prog8lib/cx16/syslib.p8:111   &uword  CBINV       = $0316     ; BRK vector (in ram)
	; source: library:/prog8lib/cx16/syslib.p8:112   &uword  NMINV       = $0318     ; NMI vector (in ram)
	; source: library:/prog8lib/cx16/syslib.p8:113   &uword  IOPEN       = $031a
	; source: library:/prog8lib/cx16/syslib.p8:114   &uword  ICLOSE      = $031c
	; source: library:/prog8lib/cx16/syslib.p8:115   &uword  ICHKIN      = $031e
	; source: library:/prog8lib/cx16/syslib.p8:116   &uword  ICKOUT      = $0320
	; source: library:/prog8lib/cx16/syslib.p8:117   &uword  ICLRCH      = $0322
	; source: library:/prog8lib/cx16/syslib.p8:118   &uword  IBASIN      = $0324
	; source: library:/prog8lib/cx16/syslib.p8:119   &uword  IBSOUT      = $0326
	; source: library:/prog8lib/cx16/syslib.p8:120   &uword  ISTOP       = $0328
	; source: library:/prog8lib/cx16/syslib.p8:121   &uword  IGETIN      = $032a
	; source: library:/prog8lib/cx16/syslib.p8:122   &uword  ICLALL      = $032c
	; source: library:/prog8lib/cx16/syslib.p8:123   &uword  KEYHDL      = $032e     ; keyboard scan code handler see examples/cx16/keyboardhandler.p8
	; source: library:/prog8lib/cx16/syslib.p8:124   &uword  ILOAD       = $0330
	; source: library:/prog8lib/cx16/syslib.p8:125   &uword  ISAVE       = $0332
	; source: library:/prog8lib/cx16/syslib.p8:126   &uword  NMI_VEC     = $FFFA     ; 65c02 nmi vector, determined by the kernal if banked in
	; source: library:/prog8lib/cx16/syslib.p8:127   &uword  RESET_VEC   = $FFFC     ; 65c02 reset vector, determined by the kernal if banked in
	; source: library:/prog8lib/cx16/syslib.p8:128   &uword  IRQ_VEC     = $FFFE     ; 65c02 interrupt vector, determined by the kernal if banked in
	; source: library:/prog8lib/cx16/syslib.p8:130   &uword  edkeyvec    = $ac03     ; (ram bank 0): for intercepting BASIN/CHRIN key strokes. See set_chrin_keyhandler()
	; source: library:/prog8lib/cx16/syslib.p8:131   &ubyte  edkeybk     = $ac05     ; ...the RAM bank of the handler routine, if not in low ram
	; source: library:/prog8lib/cx16/syslib.p8:135   &uword r0  = $0002
	; source: library:/prog8lib/cx16/syslib.p8:136   &uword r1  = $0004
	; source: library:/prog8lib/cx16/syslib.p8:137   &uword r2  = $0006
	; source: library:/prog8lib/cx16/syslib.p8:138   &uword r3  = $0008
	; source: library:/prog8lib/cx16/syslib.p8:139   &uword r4  = $000a
	; source: library:/prog8lib/cx16/syslib.p8:140   &uword r5  = $000c
	; source: library:/prog8lib/cx16/syslib.p8:141   &uword r6  = $000e
	; source: library:/prog8lib/cx16/syslib.p8:142   &uword r7  = $0010
	; source: library:/prog8lib/cx16/syslib.p8:143   &uword r8  = $0012
	; source: library:/prog8lib/cx16/syslib.p8:144   &uword r9  = $0014
	; source: library:/prog8lib/cx16/syslib.p8:145   &uword r10 = $0016
	; source: library:/prog8lib/cx16/syslib.p8:146   &uword r11 = $0018
	; source: library:/prog8lib/cx16/syslib.p8:147   &uword r12 = $001a
	; source: library:/prog8lib/cx16/syslib.p8:148   &uword r13 = $001c
	; source: library:/prog8lib/cx16/syslib.p8:149   &uword r14 = $001e
	; source: library:/prog8lib/cx16/syslib.p8:150   &uword r15 = $0020
	; source: library:/prog8lib/cx16/syslib.p8:152   &word r0s  = $0002
	; source: library:/prog8lib/cx16/syslib.p8:153   &word r1s  = $0004
	; source: library:/prog8lib/cx16/syslib.p8:154   &word r2s  = $0006
	; source: library:/prog8lib/cx16/syslib.p8:155   &word r3s  = $0008
	; source: library:/prog8lib/cx16/syslib.p8:156   &word r4s  = $000a
	; source: library:/prog8lib/cx16/syslib.p8:157   &word r5s  = $000c
	; source: library:/prog8lib/cx16/syslib.p8:158   &word r6s  = $000e
	; source: library:/prog8lib/cx16/syslib.p8:159   &word r7s  = $0010
	; source: library:/prog8lib/cx16/syslib.p8:160   &word r8s  = $0012
	; source: library:/prog8lib/cx16/syslib.p8:161   &word r9s  = $0014
	; source: library:/prog8lib/cx16/syslib.p8:162   &word r10s = $0016
	; source: library:/prog8lib/cx16/syslib.p8:163   &word r11s = $0018
	; source: library:/prog8lib/cx16/syslib.p8:164   &word r12s = $001a
	; source: library:/prog8lib/cx16/syslib.p8:165   &word r13s = $001c
	; source: library:/prog8lib/cx16/syslib.p8:166   &word r14s = $001e
	; source: library:/prog8lib/cx16/syslib.p8:167   &word r15s = $0020
	; source: library:/prog8lib/cx16/syslib.p8:169   &ubyte r0L  = $0002
	; source: library:/prog8lib/cx16/syslib.p8:170   &ubyte r1L  = $0004
	; source: library:/prog8lib/cx16/syslib.p8:171   &ubyte r2L  = $0006
	; source: library:/prog8lib/cx16/syslib.p8:172   &ubyte r3L  = $0008
	; source: library:/prog8lib/cx16/syslib.p8:173   &ubyte r4L  = $000a
	; source: library:/prog8lib/cx16/syslib.p8:174   &ubyte r5L  = $000c
	; source: library:/prog8lib/cx16/syslib.p8:175   &ubyte r6L  = $000e
	; source: library:/prog8lib/cx16/syslib.p8:176   &ubyte r7L  = $0010
	; source: library:/prog8lib/cx16/syslib.p8:177   &ubyte r8L  = $0012
	; source: library:/prog8lib/cx16/syslib.p8:178   &ubyte r9L  = $0014
	; source: library:/prog8lib/cx16/syslib.p8:179   &ubyte r10L = $0016
	; source: library:/prog8lib/cx16/syslib.p8:180   &ubyte r11L = $0018
	; source: library:/prog8lib/cx16/syslib.p8:181   &ubyte r12L = $001a
	; source: library:/prog8lib/cx16/syslib.p8:182   &ubyte r13L = $001c
	; source: library:/prog8lib/cx16/syslib.p8:183   &ubyte r14L = $001e
	; source: library:/prog8lib/cx16/syslib.p8:184   &ubyte r15L = $0020
	; source: library:/prog8lib/cx16/syslib.p8:186   &ubyte r0H  = $0003
	; source: library:/prog8lib/cx16/syslib.p8:187   &ubyte r1H  = $0005
	; source: library:/prog8lib/cx16/syslib.p8:188   &ubyte r2H  = $0007
	; source: library:/prog8lib/cx16/syslib.p8:189   &ubyte r3H  = $0009
	; source: library:/prog8lib/cx16/syslib.p8:190   &ubyte r4H  = $000b
	; source: library:/prog8lib/cx16/syslib.p8:191   &ubyte r5H  = $000d
	; source: library:/prog8lib/cx16/syslib.p8:192   &ubyte r6H  = $000f
	; source: library:/prog8lib/cx16/syslib.p8:193   &ubyte r7H  = $0011
	; source: library:/prog8lib/cx16/syslib.p8:194   &ubyte r8H  = $0013
	; source: library:/prog8lib/cx16/syslib.p8:195   &ubyte r9H  = $0015
	; source: library:/prog8lib/cx16/syslib.p8:196   &ubyte r10H = $0017
	; source: library:/prog8lib/cx16/syslib.p8:197   &ubyte r11H = $0019
	; source: library:/prog8lib/cx16/syslib.p8:198   &ubyte r12H = $001b
	; source: library:/prog8lib/cx16/syslib.p8:199   &ubyte r13H = $001d
	; source: library:/prog8lib/cx16/syslib.p8:200   &ubyte r14H = $001f
	; source: library:/prog8lib/cx16/syslib.p8:201   &ubyte r15H = $0021
	; source: library:/prog8lib/cx16/syslib.p8:203   &byte r0sL  = $0002
	; source: library:/prog8lib/cx16/syslib.p8:204   &byte r1sL  = $0004
	; source: library:/prog8lib/cx16/syslib.p8:205   &byte r2sL  = $0006
	; source: library:/prog8lib/cx16/syslib.p8:206   &byte r3sL  = $0008
	; source: library:/prog8lib/cx16/syslib.p8:207   &byte r4sL  = $000a
	; source: library:/prog8lib/cx16/syslib.p8:208   &byte r5sL  = $000c
	; source: library:/prog8lib/cx16/syslib.p8:209   &byte r6sL  = $000e
	; source: library:/prog8lib/cx16/syslib.p8:210   &byte r7sL  = $0010
	; source: library:/prog8lib/cx16/syslib.p8:211   &byte r8sL  = $0012
	; source: library:/prog8lib/cx16/syslib.p8:212   &byte r9sL  = $0014
	; source: library:/prog8lib/cx16/syslib.p8:213   &byte r10sL = $0016
	; source: library:/prog8lib/cx16/syslib.p8:214   &byte r11sL = $0018
	; source: library:/prog8lib/cx16/syslib.p8:215   &byte r12sL = $001a
	; source: library:/prog8lib/cx16/syslib.p8:216   &byte r13sL = $001c
	; source: library:/prog8lib/cx16/syslib.p8:217   &byte r14sL = $001e
	; source: library:/prog8lib/cx16/syslib.p8:218   &byte r15sL = $0020
	; source: library:/prog8lib/cx16/syslib.p8:220   &byte r0sH  = $0003
	; source: library:/prog8lib/cx16/syslib.p8:221   &byte r1sH  = $0005
	; source: library:/prog8lib/cx16/syslib.p8:222   &byte r2sH  = $0007
	; source: library:/prog8lib/cx16/syslib.p8:223   &byte r3sH  = $0009
	; source: library:/prog8lib/cx16/syslib.p8:224   &byte r4sH  = $000b
	; source: library:/prog8lib/cx16/syslib.p8:225   &byte r5sH  = $000d
	; source: library:/prog8lib/cx16/syslib.p8:226   &byte r6sH  = $000f
	; source: library:/prog8lib/cx16/syslib.p8:227   &byte r7sH  = $0011
	; source: library:/prog8lib/cx16/syslib.p8:228   &byte r8sH  = $0013
	; source: library:/prog8lib/cx16/syslib.p8:229   &byte r9sH  = $0015
	; source: library:/prog8lib/cx16/syslib.p8:230   &byte r10sH = $0017
	; source: library:/prog8lib/cx16/syslib.p8:231   &byte r11sH = $0019
	; source: library:/prog8lib/cx16/syslib.p8:232   &byte r12sH = $001b
	; source: library:/prog8lib/cx16/syslib.p8:233   &byte r13sH = $001d
	; source: library:/prog8lib/cx16/syslib.p8:234   &byte r14sH = $001f
	; source: library:/prog8lib/cx16/syslib.p8:235   &byte r15sH = $0021
	; source: library:/prog8lib/cx16/syslib.p8:239   const uword VERA_BASE       = $9F20
	; source: library:/prog8lib/cx16/syslib.p8:240   &ubyte  VERA_ADDR_L         = VERA_BASE + $0000
	; source: library:/prog8lib/cx16/syslib.p8:241   &ubyte  VERA_ADDR_M         = VERA_BASE + $0001
	; source: library:/prog8lib/cx16/syslib.p8:242   &uword  VERA_ADDR           = VERA_BASE + $0000 ; still need to do the _H separately
	; source: library:/prog8lib/cx16/syslib.p8:243   &ubyte  VERA_ADDR_H         = VERA_BASE + $0002
	; source: library:/prog8lib/cx16/syslib.p8:244   &ubyte  VERA_DATA0          = VERA_BASE + $0003
	; source: library:/prog8lib/cx16/syslib.p8:245   &ubyte  VERA_DATA1          = VERA_BASE + $0004
	; source: library:/prog8lib/cx16/syslib.p8:246   &ubyte  VERA_CTRL           = VERA_BASE + $0005
	; source: library:/prog8lib/cx16/syslib.p8:247   &ubyte  VERA_IEN            = VERA_BASE + $0006
	; source: library:/prog8lib/cx16/syslib.p8:248   &ubyte  VERA_ISR            = VERA_BASE + $0007
	; source: library:/prog8lib/cx16/syslib.p8:249   &ubyte  VERA_IRQLINE_L      = VERA_BASE + $0008 ; write only
	; source: library:/prog8lib/cx16/syslib.p8:250   &ubyte  VERA_SCANLINE_L     = VERA_BASE + $0008 ; read only
	; source: library:/prog8lib/cx16/syslib.p8:251   &ubyte  VERA_DC_VIDEO       = VERA_BASE + $0009 ; DCSEL= 0
	; source: library:/prog8lib/cx16/syslib.p8:252   &ubyte  VERA_DC_HSCALE      = VERA_BASE + $000A ; DCSEL= 0
	; source: library:/prog8lib/cx16/syslib.p8:253   &ubyte  VERA_DC_VSCALE      = VERA_BASE + $000B ; DCSEL= 0
	; source: library:/prog8lib/cx16/syslib.p8:254   &ubyte  VERA_DC_BORDER      = VERA_BASE + $000C ; DCSEL= 0
	; source: library:/prog8lib/cx16/syslib.p8:255   &ubyte  VERA_DC_HSTART      = VERA_BASE + $0009 ; DCSEL= 1
	; source: library:/prog8lib/cx16/syslib.p8:256   &ubyte  VERA_DC_HSTOP       = VERA_BASE + $000A ; DCSEL= 1
	; source: library:/prog8lib/cx16/syslib.p8:257   &ubyte  VERA_DC_VSTART      = VERA_BASE + $000B ; DCSEL= 1
	; source: library:/prog8lib/cx16/syslib.p8:258   &ubyte  VERA_DC_VSTOP       = VERA_BASE + $000C ; DCSEL= 1
	; source: library:/prog8lib/cx16/syslib.p8:259   &ubyte  VERA_DC_VER0        = VERA_BASE + $0009 ; DCSEL=63
	; source: library:/prog8lib/cx16/syslib.p8:260   &ubyte  VERA_DC_VER1        = VERA_BASE + $000A ; DCSEL=63
	; source: library:/prog8lib/cx16/syslib.p8:261   &ubyte  VERA_DC_VER2        = VERA_BASE + $000B ; DCSEL=63
	; source: library:/prog8lib/cx16/syslib.p8:262   &ubyte  VERA_DC_VER3        = VERA_BASE + $000C ; DCSEL=63
	; source: library:/prog8lib/cx16/syslib.p8:263   &ubyte  VERA_L0_CONFIG      = VERA_BASE + $000D
	; source: library:/prog8lib/cx16/syslib.p8:264   &ubyte  VERA_L0_MAPBASE     = VERA_BASE + $000E
	; source: library:/prog8lib/cx16/syslib.p8:265   &ubyte  VERA_L0_TILEBASE    = VERA_BASE + $000F
	; source: library:/prog8lib/cx16/syslib.p8:266   &ubyte  VERA_L0_HSCROLL_L   = VERA_BASE + $0010
	; source: library:/prog8lib/cx16/syslib.p8:267   &ubyte  VERA_L0_HSCROLL_H   = VERA_BASE + $0011
	; source: library:/prog8lib/cx16/syslib.p8:268   &uword  VERA_L0_HSCROLL     = VERA_BASE + $0010
	; source: library:/prog8lib/cx16/syslib.p8:269   &ubyte  VERA_L0_VSCROLL_L   = VERA_BASE + $0012
	; source: library:/prog8lib/cx16/syslib.p8:270   &ubyte  VERA_L0_VSCROLL_H   = VERA_BASE + $0013
	; source: library:/prog8lib/cx16/syslib.p8:271   &uword  VERA_L0_VSCROLL     = VERA_BASE + $0012
	; source: library:/prog8lib/cx16/syslib.p8:272   &ubyte  VERA_L1_CONFIG      = VERA_BASE + $0014
	; source: library:/prog8lib/cx16/syslib.p8:273   &ubyte  VERA_L1_MAPBASE     = VERA_BASE + $0015
	; source: library:/prog8lib/cx16/syslib.p8:274   &ubyte  VERA_L1_TILEBASE    = VERA_BASE + $0016
	; source: library:/prog8lib/cx16/syslib.p8:275   &ubyte  VERA_L1_HSCROLL_L   = VERA_BASE + $0017
	; source: library:/prog8lib/cx16/syslib.p8:276   &ubyte  VERA_L1_HSCROLL_H   = VERA_BASE + $0018
	; source: library:/prog8lib/cx16/syslib.p8:277   &uword  VERA_L1_HSCROLL     = VERA_BASE + $0017
	; source: library:/prog8lib/cx16/syslib.p8:278   &ubyte  VERA_L1_VSCROLL_L   = VERA_BASE + $0019
	; source: library:/prog8lib/cx16/syslib.p8:279   &ubyte  VERA_L1_VSCROLL_H   = VERA_BASE + $001A
	; source: library:/prog8lib/cx16/syslib.p8:280   &uword  VERA_L1_VSCROLL     = VERA_BASE + $0019
	; source: library:/prog8lib/cx16/syslib.p8:281   &ubyte  VERA_AUDIO_CTRL     = VERA_BASE + $001B
	; source: library:/prog8lib/cx16/syslib.p8:282   &ubyte  VERA_AUDIO_RATE     = VERA_BASE + $001C
	; source: library:/prog8lib/cx16/syslib.p8:283   &ubyte  VERA_AUDIO_DATA     = VERA_BASE + $001D
	; source: library:/prog8lib/cx16/syslib.p8:284   &ubyte  VERA_SPI_DATA       = VERA_BASE + $001E
	; source: library:/prog8lib/cx16/syslib.p8:285   &ubyte  VERA_SPI_CTRL       = VERA_BASE + $001F
	; source: library:/prog8lib/cx16/syslib.p8:288   &ubyte VERA_FX_CTRL         = VERA_BASE + $0009
	; source: library:/prog8lib/cx16/syslib.p8:289   &ubyte VERA_FX_TILEBASE     = VERA_BASE + $000a
	; source: library:/prog8lib/cx16/syslib.p8:290   &ubyte VERA_FX_MAPBASE      = VERA_BASE + $000b
	; source: library:/prog8lib/cx16/syslib.p8:291   &ubyte VERA_FX_MULT         = VERA_BASE + $000c
	; source: library:/prog8lib/cx16/syslib.p8:292   &ubyte VERA_FX_X_INCR_L     = VERA_BASE + $0009
	; source: library:/prog8lib/cx16/syslib.p8:293   &ubyte VERA_FX_X_INCR_H     = VERA_BASE + $000a
	; source: library:/prog8lib/cx16/syslib.p8:294   &uword VERA_FX_X_INCR       = VERA_BASE + $0009
	; source: library:/prog8lib/cx16/syslib.p8:295   &ubyte VERA_FX_Y_INCR_L     = VERA_BASE + $000b
	; source: library:/prog8lib/cx16/syslib.p8:296   &ubyte VERA_FX_Y_INCR_H     = VERA_BASE + $000c
	; source: library:/prog8lib/cx16/syslib.p8:297   &uword VERA_FX_Y_INCR       = VERA_BASE + $000b
	; source: library:/prog8lib/cx16/syslib.p8:298   &ubyte VERA_FX_X_POS_L      = VERA_BASE + $0009
	; source: library:/prog8lib/cx16/syslib.p8:299   &ubyte VERA_FX_X_POS_H      = VERA_BASE + $000a
	; source: library:/prog8lib/cx16/syslib.p8:300   &uword VERA_FX_X_POS        = VERA_BASE + $0009
	; source: library:/prog8lib/cx16/syslib.p8:301   &ubyte VERA_FX_Y_POS_L      = VERA_BASE + $000b
	; source: library:/prog8lib/cx16/syslib.p8:302   &ubyte VERA_FX_Y_POS_H      = VERA_BASE + $000c
	; source: library:/prog8lib/cx16/syslib.p8:303   &uword VERA_FX_Y_POS        = VERA_BASE + $000b
	; source: library:/prog8lib/cx16/syslib.p8:304   &ubyte VERA_FX_X_POS_S      = VERA_BASE + $0009
	; source: library:/prog8lib/cx16/syslib.p8:305   &ubyte VERA_FX_Y_POS_S      = VERA_BASE + $000a
	; source: library:/prog8lib/cx16/syslib.p8:306   &ubyte VERA_FX_POLY_FILL_L  = VERA_BASE + $000b
	; source: library:/prog8lib/cx16/syslib.p8:307   &ubyte VERA_FX_POLY_FILL_H  = VERA_BASE + $000c
	; source: library:/prog8lib/cx16/syslib.p8:308   &uword VERA_FX_POLY_FILL    = VERA_BASE + $000b
	; source: library:/prog8lib/cx16/syslib.p8:309   &ubyte VERA_FX_CACHE_L      = VERA_BASE + $0009
	; source: library:/prog8lib/cx16/syslib.p8:310   &ubyte VERA_FX_CACHE_M      = VERA_BASE + $000a
	; source: library:/prog8lib/cx16/syslib.p8:311   &ubyte VERA_FX_CACHE_H      = VERA_BASE + $000b
	; source: library:/prog8lib/cx16/syslib.p8:312   &ubyte VERA_FX_CACHE_U      = VERA_BASE + $000c
	; source: library:/prog8lib/cx16/syslib.p8:313   &ubyte VERA_FX_ACCUM        = VERA_BASE + $000a
	; source: library:/prog8lib/cx16/syslib.p8:314   &ubyte VERA_FX_ACCUM_RESET  = VERA_BASE + $0009
	; source: library:/prog8lib/cx16/syslib.p8:323   const uword  VIA1_BASE   = $9f00                  ;VIA 6522 #1
	; source: library:/prog8lib/cx16/syslib.p8:324   &ubyte  via1prb    = VIA1_BASE + 0
	; source: library:/prog8lib/cx16/syslib.p8:325   &ubyte  via1pra    = VIA1_BASE + 1
	; source: library:/prog8lib/cx16/syslib.p8:326   &ubyte  via1ddrb   = VIA1_BASE + 2
	; source: library:/prog8lib/cx16/syslib.p8:327   &ubyte  via1ddra   = VIA1_BASE + 3
	; source: library:/prog8lib/cx16/syslib.p8:328   &ubyte  via1t1l    = VIA1_BASE + 4
	; source: library:/prog8lib/cx16/syslib.p8:329   &ubyte  via1t1h    = VIA1_BASE + 5
	; source: library:/prog8lib/cx16/syslib.p8:330   &ubyte  via1t1ll   = VIA1_BASE + 6
	; source: library:/prog8lib/cx16/syslib.p8:331   &ubyte  via1t1lh   = VIA1_BASE + 7
	; source: library:/prog8lib/cx16/syslib.p8:332   &ubyte  via1t2l    = VIA1_BASE + 8
	; source: library:/prog8lib/cx16/syslib.p8:333   &ubyte  via1t2h    = VIA1_BASE + 9
	; source: library:/prog8lib/cx16/syslib.p8:334   &ubyte  via1sr     = VIA1_BASE + 10
	; source: library:/prog8lib/cx16/syslib.p8:335   &ubyte  via1acr    = VIA1_BASE + 11
	; source: library:/prog8lib/cx16/syslib.p8:336   &ubyte  via1pcr    = VIA1_BASE + 12
	; source: library:/prog8lib/cx16/syslib.p8:337   &ubyte  via1ifr    = VIA1_BASE + 13
	; source: library:/prog8lib/cx16/syslib.p8:338   &ubyte  via1ier    = VIA1_BASE + 14
	; source: library:/prog8lib/cx16/syslib.p8:339   &ubyte  via1ora    = VIA1_BASE + 15
	; source: library:/prog8lib/cx16/syslib.p8:341   const uword  VIA2_BASE   = $9f10                  ;VIA 6522 #2
	; source: library:/prog8lib/cx16/syslib.p8:342   &ubyte  via2prb    = VIA2_BASE + 0
	; source: library:/prog8lib/cx16/syslib.p8:343   &ubyte  via2pra    = VIA2_BASE + 1
	; source: library:/prog8lib/cx16/syslib.p8:344   &ubyte  via2ddrb   = VIA2_BASE + 2
	; source: library:/prog8lib/cx16/syslib.p8:345   &ubyte  via2ddra   = VIA2_BASE + 3
	; source: library:/prog8lib/cx16/syslib.p8:346   &ubyte  via2t1l    = VIA2_BASE + 4
	; source: library:/prog8lib/cx16/syslib.p8:347   &ubyte  via2t1h    = VIA2_BASE + 5
	; source: library:/prog8lib/cx16/syslib.p8:348   &ubyte  via2t1ll   = VIA2_BASE + 6
	; source: library:/prog8lib/cx16/syslib.p8:349   &ubyte  via2t1lh   = VIA2_BASE + 7
	; source: library:/prog8lib/cx16/syslib.p8:350   &ubyte  via2t2l    = VIA2_BASE + 8
	; source: library:/prog8lib/cx16/syslib.p8:351   &ubyte  via2t2h    = VIA2_BASE + 9
	; source: library:/prog8lib/cx16/syslib.p8:352   &ubyte  via2sr     = VIA2_BASE + 10
	; source: library:/prog8lib/cx16/syslib.p8:353   &ubyte  via2acr    = VIA2_BASE + 11
	; source: library:/prog8lib/cx16/syslib.p8:354   &ubyte  via2pcr    = VIA2_BASE + 12
	; source: library:/prog8lib/cx16/syslib.p8:355   &ubyte  via2ifr    = VIA2_BASE + 13
	; source: library:/prog8lib/cx16/syslib.p8:356   &ubyte  via2ier    = VIA2_BASE + 14
	; source: library:/prog8lib/cx16/syslib.p8:357   &ubyte  via2ora    = VIA2_BASE + 15
	; source: library:/prog8lib/cx16/syslib.p8:360   &ubyte  YM_ADDRESS	= $9f40
	; source: library:/prog8lib/cx16/syslib.p8:361   &ubyte  YM_DATA	    = $9f41
	; source: library:/prog8lib/cx16/syslib.p8:363   const uword  extdev	= $9f60
	; source: library:/prog8lib/cx16/syslib.p8:95   cx16 {
	; source: library:/prog8lib/cx16/syslib.p8:370   romsub $ff4a = CLOSE_ALL(ubyte device @A)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:371   romsub $ff59 = LKUPLA(ubyte la @A)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:372   romsub $ff5c = LKUPSA(ubyte sa @Y)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:373   romsub $ff5f = screen_mode(ubyte mode @A, bool getCurrent @Pc)  clobbers(X, Y) -> ubyte @A, bool @Pc        ; note: X,Y size result is not supported, use SCREEN or get_screen_mode routine for that

	; source: library:/prog8lib/cx16/syslib.p8:374   romsub $ff62 = screen_set_charset(ubyte charset @A, uword charsetptr @XY)  clobbers(A,X,Y)      ; incompatible with C128  dlchr()

	; source: library:/prog8lib/cx16/syslib.p8:376   romsub $ff6e = JSRFAR()  ; following word = address to call, byte after that=rom/ram bank it is in

	; source: library:/prog8lib/cx16/syslib.p8:377   romsub $ff74 = fetch(ubyte bank @X, ubyte index @Y)  clobbers(X) -> ubyte @A

	; source: library:/prog8lib/cx16/syslib.p8:378   romsub $ff77 = stash(ubyte data @A, ubyte bank @X, ubyte index @Y)  clobbers(X)

	; source: library:/prog8lib/cx16/syslib.p8:379   romsub $ff7d = PRIMM()

	; source: library:/prog8lib/cx16/syslib.p8:384   romsub $ff20 = GRAPH_init(uword vectors @R0)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:385   romsub $ff23 = GRAPH_clear()  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:386   romsub $ff26 = GRAPH_set_window(uword x @R0, uword y @R1, uword width @R2, uword height @R3)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:387   romsub $ff29 = GRAPH_set_colors(ubyte stroke @A, ubyte fill @X, ubyte background @Y)  clobbers (A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:388   romsub $ff2c = GRAPH_draw_line(uword x1 @R0, uword y1 @R1, uword x2 @R2, uword y2 @R3)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:389   romsub $ff2f = GRAPH_draw_rect(uword x @R0, uword y @R1, uword width @R2, uword height @R3, uword cornerradius @R4, bool fill @Pc)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:390   romsub $ff32 = GRAPH_move_rect(uword sx @R0, uword sy @R1, uword tx @R2, uword ty @R3, uword width @R4, uword height @R5)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:391   romsub $ff35 = GRAPH_draw_oval(uword x @R0, uword y @R1, uword width @R2, uword height @R3, bool fill @Pc)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:392   romsub $ff38 = GRAPH_draw_image(uword x @R0, uword y @R1, uword ptr @R2, uword width @R3, uword height @R4)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:393   romsub $ff3b = GRAPH_set_font(uword fontptr @R0)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:394   romsub $ff3e = GRAPH_get_char_size(ubyte baseline @A, ubyte width @X, ubyte height_or_style @Y, bool is_control @Pc)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:395   romsub $ff41 = GRAPH_put_char(uword x @R0, uword y @R1, ubyte character @A)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:396   romsub $ff41 = GRAPH_put_next_char(ubyte character @A)  clobbers(A,X,Y)     ; alias for the routine above that doesn't reset the position of the initial character

	; source: library:/prog8lib/cx16/syslib.p8:399   romsub $fef6 = FB_init()  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:400   romsub $fef9 = FB_get_info()  clobbers(X,Y) -> byte @A, uword @R0, uword @R1    ; width=r0, height=r1

	; source: library:/prog8lib/cx16/syslib.p8:401   romsub $fefc = FB_set_palette(uword pointer @R0, ubyte index @A, ubyte colorcount @X)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:402   romsub $feff = FB_cursor_position(uword x @R0, uword y @R1)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:403   romsub $ff02 = FB_cursor_next_line(uword x @R0)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:404   romsub $ff05 = FB_get_pixel()  clobbers(X,Y) -> ubyte @A

	; source: library:/prog8lib/cx16/syslib.p8:405   romsub $ff08 = FB_get_pixels(uword pointer @R0, uword count @R1)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:406   romsub $ff0b = FB_set_pixel(ubyte color @A)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:407   romsub $ff0e = FB_set_pixels(uword pointer @R0, uword count @R1)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:408   romsub $ff11 = FB_set_8_pixels(ubyte pattern @A, ubyte color @X)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:409   romsub $ff14 = FB_set_8_pixels_opaque(ubyte pattern @R0, ubyte mask @A, ubyte color1 @X, ubyte color2 @Y)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:410   romsub $ff17 = FB_fill_pixels(uword count @R0, uword pstep @R1, ubyte color @A)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:411   romsub $ff1a = FB_filter_pixels(uword pointer @ R0, uword count @R1)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:412   romsub $ff1d = FB_move_pixels(uword sx @R0, uword sy @R1, uword tx @R2, uword ty @R3, uword count @R4)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:415   romsub $FEBA = BSAVE(ubyte zp_startaddr @ A, uword endaddr @ XY) clobbers (X, Y) -> bool @ Pc, ubyte @ A      ; like cbm.SAVE, but omits the 2-byte prg header

	; source: library:/prog8lib/cx16/syslib.p8:416   romsub $fec6 = i2c_read_byte(ubyte device @X, ubyte offset @Y) clobbers (X,Y) -> ubyte @A, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:417   romsub $fec9 = i2c_write_byte(ubyte device @X, ubyte offset @Y, ubyte data @A) clobbers (A,X,Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:418   romsub $fef0 = sprite_set_image(uword pixels @R0, uword mask @R1, ubyte bpp @R2, ubyte number @A, ubyte width @X, ubyte height @Y, bool apply_mask @Pc)  clobbers(A,X,Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:419   romsub $fef3 = sprite_set_position(uword x @R0, uword y @R1, ubyte number @A)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:420   romsub $fee4 = memory_fill(uword address @R0, uword num_bytes @R1, ubyte value @A)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:421   romsub $fee7 = memory_copy(uword source @R0, uword target @R1, uword num_bytes @R2)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:422   romsub $feea = memory_crc(uword address @R0, uword num_bytes @R1)  clobbers(A,X,Y) -> uword @R2

	; source: library:/prog8lib/cx16/syslib.p8:423   romsub $feed = memory_decompress(uword input @R0, uword output @R1)  clobbers(A,X,Y) -> uword @R1       ; last address +1 is result in R1

	; source: library:/prog8lib/cx16/syslib.p8:424   romsub $fedb = console_init(uword x @R0, uword y @R1, uword width @R2, uword height @R3)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:425   romsub $fede = console_put_char(ubyte character @A, bool wrapping @Pc)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:426   romsub $fee1 = console_get_char()  clobbers(X,Y) -> ubyte @A

	; source: library:/prog8lib/cx16/syslib.p8:427   romsub $fed8 = console_put_image(uword pointer @R0, uword width @R1, uword height @R2)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:428   romsub $fed5 = console_set_paging_message(uword msgptr @R0)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:429   romsub $fecf = entropy_get() -> ubyte @A, ubyte @X, ubyte @Y

	; source: library:/prog8lib/cx16/syslib.p8:430   romsub $fecc = monitor()  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:432   romsub $ff44 = MACPTR(ubyte length @A, uword buffer @XY, bool dontAdvance @Pc)  clobbers(A) -> bool @Pc, uword @XY

	; source: library:/prog8lib/cx16/syslib.p8:433   romsub $feb1 = MCIOUT(ubyte length @A, uword buffer @XY, bool dontAdvance @Pc)  clobbers(A) -> bool @Pc, uword @XY

	; source: library:/prog8lib/cx16/syslib.p8:434   romsub $ff47 = enter_basic(bool cold_or_warm @Pc)  clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:435   romsub $ff4d = clock_set_date_time(uword yearmonth @R0, uword dayhours @R1, uword minsecs @R2, uword jiffiesweekday @R3)  clobbers(A, X, Y)

	; source: library:/prog8lib/cx16/syslib.p8:436   romsub $ff50 = clock_get_date_time()  clobbers(A, X, Y)  -> uword @R0, uword @R1, uword @R2, uword @R3   ; result registers see clock_set_date_time()

	; source: library:/prog8lib/cx16/syslib.p8:440   romsub $febd = kbdbuf_peek() -> ubyte @A, ubyte @X     ; key in A, queue length in X

	; source: library:/prog8lib/cx16/syslib.p8:441   romsub $febd = kbdbuf_peek2() -> uword @AX             ; alternative to above to not have the hassle to deal with multiple return values

	; source: library:/prog8lib/cx16/syslib.p8:442   romsub $fec0 = kbdbuf_get_modifiers() -> ubyte @A

	; source: library:/prog8lib/cx16/syslib.p8:443   romsub $fec3 = kbdbuf_put(ubyte key @A) clobbers(X)

	; source: library:/prog8lib/cx16/syslib.p8:444   romsub $fed2 = keymap(uword identifier @XY, bool read @Pc) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:445   romsub $ff68 = mouse_config(byte shape @A, ubyte resX @X, ubyte resY @Y)  clobbers (A, X, Y)

	; source: library:/prog8lib/cx16/syslib.p8:446   romsub $ff6b = mouse_get(ubyte zpdataptr @X) -> ubyte @A

	; source: library:/prog8lib/cx16/syslib.p8:447   romsub $ff71 = mouse_scan()  clobbers(A, X, Y)

	; source: library:/prog8lib/cx16/syslib.p8:448   romsub $ff53 = joystick_scan()  clobbers(A, X, Y)

	; source: library:/prog8lib/cx16/syslib.p8:449   romsub $ff56 = joystick_get(ubyte joynr @A) -> ubyte @A, ubyte @X, ubyte @Y

	; source: library:/prog8lib/cx16/syslib.p8:450   romsub $ff56 = joystick_get2(ubyte joynr @A) clobbers(Y) -> uword @AX   ; alternative to above to not have the hassle to deal with multiple return values

	; source: library:/prog8lib/cx16/syslib.p8:453   romsub $C000 = x16edit_default() clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:454   romsub $C003 = x16edit_loadfile(ubyte firstbank @X, ubyte lastbank @Y, str filename @R0, ubyte filenameLength @R1) clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:455   romsub $C006 = x16edit_loadfile_options(ubyte firstbank @X, ubyte lastbank @Y, str filename @R0,

	; source: library:/prog8lib/cx16/syslib.p8:460   romsub $C09F = audio_init() clobbers(A,X,Y) -> bool @Pc     ; (re)initialize both vera PSG and YM audio chips

	; source: library:/prog8lib/cx16/syslib.p8:461   romsub $C000 = bas_fmfreq(ubyte channel @A, uword freq @XY, bool noretrigger @Pc) clobbers(A,X,Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:462   romsub $C003 = bas_fmnote(ubyte channel @A, ubyte note @X, ubyte fracsemitone @Y, bool noretrigger @Pc) clobbers(A,X,Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:463   romsub $C006 = bas_fmplaystring(ubyte length @A, str string @XY) clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:464   romsub $C009 = bas_fmvib(ubyte speed @A, ubyte depth @X) clobbers(A,X,Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:465   romsub $C00C = bas_playstringvoice(ubyte channel @A) clobbers(Y)

	; source: library:/prog8lib/cx16/syslib.p8:466   romsub $C00F = bas_psgfreq(ubyte voice @A, uword freq @XY) clobbers(A,X,Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:467   romsub $C012 = bas_psgnote(ubyte voice @A, ubyte note @X, ubyte fracsemitone @Y) clobbers(A,X,Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:468   romsub $C015 = bas_psgwav(ubyte voice @A, ubyte waveform @X) clobbers(A,X,Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:469   romsub $C018 = bas_psgplaystring(ubyte length @A, str string @XY) clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:470   romsub $C08D = bas_fmchordstring(ubyte length @A, str string @XY) clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:471   romsub $C090 = bas_psgchordstring(ubyte length @A, str string @XY) clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:472   romsub $C01B = notecon_bas2fm(ubyte note @X) clobbers(A) -> ubyte @X, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:473   romsub $C01E = notecon_bas2midi(ubyte note @X) clobbers(A) -> ubyte @X, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:474   romsub $C021 = notecon_bas2psg(ubyte note @X, ubyte fracsemitone @Y) clobbers(A) -> uword @XY, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:475   romsub $C024 = notecon_fm2bas(ubyte note @X) clobbers(A) -> ubyte @X, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:476   romsub $C027 = notecon_fm2midi(ubyte note @X) clobbers(A) -> ubyte @X, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:477   romsub $C02A = notecon_fm2psg(ubyte note @X, ubyte fracsemitone @Y) clobbers(A) -> uword @XY, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:478   romsub $C02D = notecon_freq2bas(uword freqHz @XY) clobbers(A) -> ubyte @X, ubyte @Y, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:479   romsub $C030 = notecon_freq2fm(uword freqHz @XY) clobbers(A) -> ubyte @X, ubyte @Y, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:480   romsub $C033 = notecon_freq2midi(uword freqHz @XY) clobbers(A) -> ubyte @X, ubyte @Y, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:481   romsub $C036 = notecon_freq2psg(uword freqHz @XY) clobbers(A) -> uword @XY, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:482   romsub $C039 = notecon_midi2bas(ubyte note @X) clobbers(A) -> ubyte @X, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:483   romsub $C03C = notecon_midi2fm(ubyte note @X) clobbers(A) -> ubyte @X, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:484   romsub $C03F = notecon_midi2psg(ubyte note @X, ubyte fracsemitone @Y) clobbers(A) -> uword @XY, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:485   romsub $C042 = notecon_psg2bas(uword freq @XY) clobbers(A) -> ubyte @X, ubyte @Y, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:486   romsub $C045 = notecon_psg2fm(uword freq @XY) clobbers(A) -> ubyte @X, ubyte @Y, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:487   romsub $C048 = notecon_psg2midi(uword freq @XY) clobbers(A) -> ubyte @X, ubyte @Y, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:488   romsub $C04B = psg_init() clobbers(A,X,Y)               ; (re)init Vera PSG

	; source: library:/prog8lib/cx16/syslib.p8:489   romsub $C04E = psg_playfreq(ubyte voice @A, uword freq @XY) clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:490   romsub $C051 = psg_read(ubyte offset @X, bool cookedVol @Pc) clobbers(Y) -> ubyte @A

	; source: library:/prog8lib/cx16/syslib.p8:491   romsub $C054 = psg_setatten(ubyte voice @A, ubyte attenuation @X) clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:492   romsub $C057 = psg_setfreq(ubyte voice @A, uword freq @XY) clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:493   romsub $C05A = psg_setpan(ubyte voice @A, ubyte panning @X) clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:494   romsub $C05D = psg_setvol(ubyte voice @A, ubyte volume @X) clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:495   romsub $C060 = psg_write(ubyte value @A, ubyte offset @X) clobbers(Y)

	; source: library:/prog8lib/cx16/syslib.p8:496   romsub $C0A2 = psg_write_fast(ubyte value @A, ubyte offset @X) clobbers(Y)

	; source: library:/prog8lib/cx16/syslib.p8:497   romsub $C093 = psg_getatten(ubyte voice @A) clobbers(Y) -> ubyte @X

	; source: library:/prog8lib/cx16/syslib.p8:498   romsub $C096 = psg_getpan(ubyte voice @A) clobbers(Y) -> ubyte @X

	; source: library:/prog8lib/cx16/syslib.p8:499   romsub $C063 = ym_init() clobbers(A,X,Y) -> bool @Pc              ; (re)init YM chip

	; source: library:/prog8lib/cx16/syslib.p8:500   romsub $C066 = ym_loaddefpatches() clobbers(A,X,Y) -> bool @Pc    ; load default YM patches

	; source: library:/prog8lib/cx16/syslib.p8:501   romsub $C069 = ym_loadpatch(ubyte channel @A, uword patchOrAddress @XY, bool what @Pc) clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/syslib.p8:502   romsub $C06C = ym_loadpatchlfn(ubyte channel @A, ubyte lfn @X) clobbers(X,Y) -> ubyte @A, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:503   romsub $C06F = ym_playdrum(ubyte channel @A, ubyte note @X) clobbers(A,X,Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:504   romsub $C072 = ym_playnote(ubyte channel @A, ubyte kc @X, ubyte kf @Y, bool notrigger @Pc) clobbers(A,X,Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:505   romsub $C075 = ym_setatten(ubyte channel @A, ubyte attenuation @X) clobbers(Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:506   romsub $C078 = ym_setdrum(ubyte channel @A, ubyte note @X) clobbers(A,X,Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:507   romsub $C07B = ym_setnote(ubyte channel @A, ubyte kc @X, ubyte kf @Y) clobbers(A,X,Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:508   romsub $C07E = ym_setpan(ubyte channel @A, ubyte panning @X) clobbers(A,X,Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:509   romsub $C081 = ym_read(ubyte register @X, bool cooked @Pc) clobbers(Y) -> ubyte @A, bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:510   romsub $C084 = ym_release(ubyte channel @A) clobbers(A,X,Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:511   romsub $C087 = ym_trigger(ubyte channel @A, bool noRelease @Pc) clobbers(A,X,Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:512   romsub $C08A = ym_write(ubyte value @A, ubyte register @X) clobbers(Y) -> bool @Pc

	; source: library:/prog8lib/cx16/syslib.p8:513   romsub $C099 = ym_getatten(ubyte channel @A) clobbers(Y) -> ubyte @X

	; source: library:/prog8lib/cx16/syslib.p8:514   romsub $C09C = ym_getpan(ubyte channel @A) clobbers(Y) -> ubyte @X

	; source: library:/prog8lib/cx16/syslib.p8:515   romsub $C0A5 = ym_get_chip_type() clobbers(X) -> ubyte @A

	; source: library:/prog8lib/cx16/syslib.p8:518   asmsub set_screen_mode(ubyte mode @A) clobbers(A,X,Y) -> bool @Pc {

set_screen_mode	.proc
	; source: library:/prog8lib/cx16/syslib.p8:520   %asm {{
        clc
        jmp  screen_mode
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:526   asmsub get_screen_mode() -> byte @A, byte @X, byte @Y {

get_screen_mode	.proc
	; source: library:/prog8lib/cx16/syslib.p8:531   %asm {{
        sec
        jmp  screen_mode
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:537   asmsub kbdbuf_clear() {

kbdbuf_clear	.proc
	; source: library:/prog8lib/cx16/syslib.p8:539   %asm {{
-       jsr  cbm.GETIN
        bne  -
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:546   asmsub mouse_config2(byte shape @A) clobbers (A, X, Y) {

mouse_config2	.proc
	; source: library:/prog8lib/cx16/syslib.p8:548   %asm {{
        pha                         ; save shape
        sec
        jsr  cx16.screen_mode       ; set current screen mode and res in A, X, Y
        pla                         ; get shape back
        jmp  cx16.mouse_config
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:557   asmsub mouse_pos() clobbers(X) -> ubyte @A {

mouse_pos	.proc
	; source: library:/prog8lib/cx16/syslib.p8:560   %asm {{
        ldx  #cx16.r0
        jmp  cx16.mouse_get
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:572   inline asmsub rombank(ubyte bank @A) {
	; source: library:/prog8lib/cx16/syslib.p8:579   inline asmsub rambank(ubyte bank @A) {
	; source: library:/prog8lib/cx16/syslib.p8:586   inline asmsub getrombank() -> ubyte @A {
	; source: library:/prog8lib/cx16/syslib.p8:593   inline asmsub getrambank() -> ubyte @A {
	; source: library:/prog8lib/cx16/syslib.p8:600   asmsub numbanks() clobbers(X) -> uword @AY {

numbanks	.proc
	; source: library:/prog8lib/cx16/syslib.p8:607   %asm {{
        sec
        jsr  cbm.MEMTOP
        ldy  #0
        cmp  #0
        bne  +
        iny
+       rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:618   asmsub vpeek(ubyte bank @A, uword address @XY) -> ubyte @A {

vpeek	.proc
	; source: library:/prog8lib/cx16/syslib.p8:621   %asm {{
                stz  cx16.VERA_CTRL
                sta  cx16.VERA_ADDR_H
                sty  cx16.VERA_ADDR_M
                stx  cx16.VERA_ADDR_L
                lda  cx16.VERA_DATA0
                rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:631   asmsub vaddr(ubyte bank @A, uword address @R0, ubyte addrsel @R1, byte autoIncrOrDecrByOne @Y) clobbers(A) {

vaddr	.proc
	; source: library:/prog8lib/cx16/syslib.p8:635   %asm {{
            pha
            lda  cx16.r1
            and  #1
            sta  cx16.VERA_CTRL
            lda  cx16.r0
            sta  cx16.VERA_ADDR_L
            lda  cx16.r0+1
            sta  cx16.VERA_ADDR_M
            pla
            cpy  #0
            bmi  ++
            beq  +
            ora  #%00010000
+           sta  cx16.VERA_ADDR_H
            rts
+           ora  #%00011000
            sta  cx16.VERA_ADDR_H
            rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:657   asmsub vaddr_clone(ubyte port @A) clobbers (A,X,Y) {

vaddr_clone	.proc
	; source: library:/prog8lib/cx16/syslib.p8:659   %asm {{
        sta  VERA_CTRL
        ldx  VERA_ADDR_L
        ldy  VERA_ADDR_H
        phy
        ldy  VERA_ADDR_M
        eor  #1
        sta  VERA_CTRL
        stx  VERA_ADDR_L
        sty  VERA_ADDR_M
        ply
        sty  VERA_ADDR_H
        eor  #1
        sta  VERA_CTRL
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:677   asmsub vaddr_autoincr(ubyte bank @A, uword address @R0, ubyte addrsel @R1, uword autoIncrAmount @R2) clobbers(A,Y) {

vaddr_autoincr	.proc
	; source: library:/prog8lib/cx16/syslib.p8:681   %asm {{
            jsr  _setup
            lda  cx16.r2H
            ora  cx16.r2L
            beq  +
            jsr  _determine_incr_bits
+           ora  P8ZP_SCRATCH_REG
            sta  cx16.VERA_ADDR_H
            rts

_setup      sta  P8ZP_SCRATCH_REG
            lda  cx16.r1
            and  #1
            sta  cx16.VERA_CTRL
            lda  cx16.r0
            sta  cx16.VERA_ADDR_L
            lda  cx16.r0+1
            sta  cx16.VERA_ADDR_M
            rts

_determine_incr_bits
            lda  cx16.r2H
            bne  _large
            lda  cx16.r2L
            ldy  #13
-           cmp  _strides_lsb,y
            beq  +
            dey
            bpl  -
+           tya
            asl  a
            asl  a
            asl  a
            asl  a
            rts
_large      ora  cx16.r2L
            cmp  #1         ; 256
            bne  +
            lda  #9<<4
            rts
+           cmp  #2         ; 512
            bne  +
            lda  #10<<4
            rts
+           cmp  #65        ; 320
            bne  +
            lda  #14<<4
            rts
+           cmp  #130       ; 640
            bne  +
            lda  #15<<4
            rts
+           lda  #0
            rts
_strides_lsb    .byte   0,1,2,4,8,16,32,64,128,255,255,40,80,160,255,255
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:739   asmsub vaddr_autodecr(ubyte bank @A, uword address @R0, ubyte addrsel @R1, uword autoDecrAmount @R2) clobbers(A,Y) {

vaddr_autodecr	.proc
	; source: library:/prog8lib/cx16/syslib.p8:743   %asm {{
            jsr  vaddr_autoincr._setup
            lda  cx16.r2H
            ora  cx16.r2L
            beq  +
            jsr  vaddr_autoincr._determine_incr_bits
            ora  #%00001000         ; autodecrement
+           ora  P8ZP_SCRATCH_REG
            sta  cx16.VERA_ADDR_H
            rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:756   asmsub vpoke(ubyte bank @A, uword address @R0, ubyte value @Y) clobbers(A) {

vpoke	.proc
	; source: library:/prog8lib/cx16/syslib.p8:759   %asm {{
        stz  cx16.VERA_CTRL
        sta  cx16.VERA_ADDR_H
        lda  cx16.r0
        sta  cx16.VERA_ADDR_L
        lda  cx16.r0+1
        sta  cx16.VERA_ADDR_M
        sty  cx16.VERA_DATA0
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:771   asmsub vpoke_or(ubyte bank @A, uword address @R0, ubyte value @Y) clobbers (A) {

vpoke_or	.proc
	; source: library:/prog8lib/cx16/syslib.p8:774   %asm {{
        stz  cx16.VERA_CTRL
        sta  cx16.VERA_ADDR_H
        lda  cx16.r0
        sta  cx16.VERA_ADDR_L
        lda  cx16.r0+1
        sta  cx16.VERA_ADDR_M
        tya
        ora  cx16.VERA_DATA0
        sta  cx16.VERA_DATA0
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:788   asmsub vpoke_and(ubyte bank @A, uword address @R0, ubyte value @Y) clobbers(A) {

vpoke_and	.proc
	; source: library:/prog8lib/cx16/syslib.p8:791   %asm {{
        stz  cx16.VERA_CTRL
        sta  cx16.VERA_ADDR_H
        lda  cx16.r0
        sta  cx16.VERA_ADDR_L
        lda  cx16.r0+1
        sta  cx16.VERA_ADDR_M
        tya
        and  cx16.VERA_DATA0
        sta  cx16.VERA_DATA0
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:805   asmsub vpoke_xor(ubyte bank @A, uword address @R0, ubyte value @Y) clobbers (A) {

vpoke_xor	.proc
	; source: library:/prog8lib/cx16/syslib.p8:808   %asm {{
        stz  cx16.VERA_CTRL
        sta  cx16.VERA_ADDR_H
        lda  cx16.r0
        sta  cx16.VERA_ADDR_L
        lda  cx16.r0+1
        sta  cx16.VERA_ADDR_M
        tya
        eor  cx16.VERA_DATA0
        sta  cx16.VERA_DATA0
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:822   asmsub vpoke_mask(ubyte bank @A, uword address @R0, ubyte mask @X, ubyte value @Y) clobbers (A) {

vpoke_mask	.proc
	; source: library:/prog8lib/cx16/syslib.p8:825   %asm {{
        sty  P8ZP_SCRATCH_B1
        stz  cx16.VERA_CTRL
        sta  cx16.VERA_ADDR_H
        lda  cx16.r0
        sta  cx16.VERA_ADDR_L
        lda  cx16.r0+1
        sta  cx16.VERA_ADDR_M
        txa
        and  cx16.VERA_DATA0
        ora  P8ZP_SCRATCH_B1
        sta  cx16.VERA_DATA0
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:841   asmsub save_virtual_registers() clobbers(A,Y) {

save_virtual_registers	.proc
	; source: library:/prog8lib/cx16/syslib.p8:842   %asm {{
        ldy  #31
-       lda  cx16.r0,y
        sta  _cx16_vreg_storage,y
        dey
        bpl  -
        rts

_cx16_vreg_storage
        .word 0,0,0,0,0,0,0,0
        .word 0,0,0,0,0,0,0,0
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:856   asmsub restore_virtual_registers() clobbers(A,Y) {

restore_virtual_registers	.proc
	; source: library:/prog8lib/cx16/syslib.p8:857   %asm {{
        ldy  #31
-       lda  save_virtual_registers._cx16_vreg_storage,y
        sta  cx16.r0,y
        dey
        bpl  -
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:868   asmsub save_vera_context() clobbers(A) {

save_vera_context	.proc
	; source: library:/prog8lib/cx16/syslib.p8:870   %asm {{
        ; note cannot store this on cpu hardware stack because this gets called as a subroutine
        lda  cx16.VERA_ADDR_L
        sta  _vera_storage
        lda  cx16.VERA_ADDR_M
        sta  _vera_storage+1
        lda  cx16.VERA_ADDR_H
        sta  _vera_storage+2
        lda  cx16.VERA_CTRL
        sta  _vera_storage+3
        eor  #1
        sta  _vera_storage+7
        sta  cx16.VERA_CTRL
        lda  cx16.VERA_ADDR_L
        sta  _vera_storage+4
        lda  cx16.VERA_ADDR_M
        sta  _vera_storage+5
        lda  cx16.VERA_ADDR_H
        sta  _vera_storage+6
        rts
_vera_storage:  .byte 0,0,0,0,0,0,0,0
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:894   asmsub restore_vera_context() clobbers(A) {

restore_vera_context	.proc
	; source: library:/prog8lib/cx16/syslib.p8:896   %asm {{
        lda  cx16.save_vera_context._vera_storage+7
        sta  cx16.VERA_CTRL
        lda  cx16.save_vera_context._vera_storage+6
        sta  cx16.VERA_ADDR_H
        lda  cx16.save_vera_context._vera_storage+5
        sta  cx16.VERA_ADDR_M
        lda  cx16.save_vera_context._vera_storage+4
        sta  cx16.VERA_ADDR_L
        lda  cx16.save_vera_context._vera_storage+3
        sta  cx16.VERA_CTRL
        lda  cx16.save_vera_context._vera_storage+2
        sta  cx16.VERA_ADDR_H
        lda  cx16.save_vera_context._vera_storage+1
        sta  cx16.VERA_ADDR_M
        lda  cx16.save_vera_context._vera_storage+0
        sta  cx16.VERA_ADDR_L
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:918   asmsub set_chrin_keyhandler(ubyte handlerbank @A, uword handler @XY) clobbers(A) {

set_chrin_keyhandler	.proc
	; source: library:/prog8lib/cx16/syslib.p8:921   %asm {{
            sei
            sta  P8ZP_SCRATCH_REG
            lda  $00
            pha
            stz  $00
            lda  P8ZP_SCRATCH_REG
            sta  cx16.edkeybk
            stx  cx16.edkeyvec
            sty  cx16.edkeyvec+1
            pla
            sta  $00
            cli
            rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:938   asmsub get_chrin_keyhandler() -> ubyte @R0, uword @R1 {

get_chrin_keyhandler	.proc
	; source: library:/prog8lib/cx16/syslib.p8:940   %asm {{
            sei
            lda  $00
            pha
            stz  $00
            lda  cx16.edkeybk
            sta  cx16.r0L
            lda  cx16.edkeyvec
            ldy  cx16.edkeyvec+1
            sta  cx16.r1
            sty  cx16.r1+1
            pla
            sta  $00
            cli
            rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:961   inline asmsub  disable_irqs() clobbers(A) {
	; source: library:/prog8lib/cx16/syslib.p8:969   asmsub  enable_irq_handlers(bool disable_all_irq_sources @Pc) clobbers(A,Y)  {

enable_irq_handlers	.proc
	; source: library:/prog8lib/cx16/syslib.p8:974   %asm {{
        php
        sei
        bcc  +
        lda  #%00001111
        trb  cx16.VERA_IEN      ; disable all IRQ sources
+       lda  #<_irq_dispatcher
        ldy  #>_irq_dispatcher
        sta  cx16.CINV
        sty  cx16.CINV+1
        plp
        rts

_irq_dispatcher
        ; order of handling: LINE, SPRCOL, AFLOW, VSYNC.
        jsr  sys.save_prog8_internals
        cld
        lda  cx16.VERA_ISR
        and  cx16.VERA_IEN          ; only consider the bits for sources that can actually raise the IRQ

        bit  #2
        beq  +
_mod_line_jump
        jsr  _default_line_handler      ; modified
        ldy  #2
        sty  cx16.VERA_ISR
        bra  _dispatch_end
+
        bit  #4
        beq  +
_mod_sprcol_jump
        jsr  _default_sprcol_handler      ; modified
        ldy  #4
        sty  cx16.VERA_ISR
        bra  _dispatch_end
+
        bit  #8
        beq  +
_mod_aflow_jump
        jsr  _default_aflow_handler      ; modified
        ; note: AFLOW can only be cleared by filling the audio FIFO for at least 1/4. Not via the ISR bit.
        bra  _dispatch_end
+
        bit  #1
        beq  +
_mod_vsync_jump
        jsr  _default_vsync_handler      ; modified
        cmp  #0
        bne  _dispatch_end
        ldy  #1
        sty  cx16.VERA_ISR
        bra  _return_irq
+
        lda  #0
_dispatch_end
        cmp  #0
        beq  _return_irq
        jsr  sys.restore_prog8_internals
		jmp  (sys.restore_irq._orig_irqvec)   ; continue with normal kernal irq routine
_return_irq
        jsr  sys.restore_prog8_internals
		ply
		plx
		pla
		rti

_default_vsync_handler
        lda  #1
        rts
_default_line_handler
        lda  #0
        rts
_default_sprcol_handler
        lda  #0
        rts
_default_aflow_handler
        lda  #0
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1055   asmsub set_vsync_irq_handler(uword address @AY) clobbers(A) {

set_vsync_irq_handler	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1058   %asm {{
        php
        sei
        sta  enable_irq_handlers._mod_vsync_jump+1
        sty  enable_irq_handlers._mod_vsync_jump+2
        lda  #1
        tsb  cx16.VERA_IEN
        plp
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1070   asmsub set_line_irq_handler(uword rasterline @R0, uword address @AY) clobbers(A,Y) {

set_line_irq_handler	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1074   %asm {{
        php
        sei
        sta  enable_irq_handlers._mod_line_jump+1
        sty  enable_irq_handlers._mod_line_jump+2
        lda  cx16.r0
        ldy  cx16.r0+1
        jsr  sys.set_rasterline
        lda  #2
        tsb  cx16.VERA_IEN
        plp
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1089   asmsub set_sprcol_irq_handler(uword address @AY) clobbers(A) {

set_sprcol_irq_handler	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1092   %asm {{
        php
        sei
        sta  enable_irq_handlers._mod_sprcol_jump+1
        sty  enable_irq_handlers._mod_sprcol_jump+2
        lda  #4
        tsb  cx16.VERA_IEN
        plp
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1104   asmsub set_aflow_irq_handler(uword address @AY) clobbers(A) {

set_aflow_irq_handler	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1107   %asm {{
        php
        sei
        sta  enable_irq_handlers._mod_aflow_jump+1
        sty  enable_irq_handlers._mod_aflow_jump+2
        lda  #8
        tsb  cx16.VERA_IEN
        plp
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1120   inline asmsub  disable_irq_handlers() {
	; source: library:/prog8lib/cx16/syslib.p8:1159   asmsub cpu_is_65816() -> bool @A {

cpu_is_65816	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1161   %asm {{
			php
			clv
			.byte $e2, $ea  ; SEP #$ea, should be interpreted as 2 NOPs by 6502. 65c816 will set the Overflow flag.
			bvc +
			lda #1
			plp
			rts
+			lda #0
			plp
			rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1187   asmsub get_program_args(uword buffer @R0, ubyte buf_size @R1, bool binary @Pc) {

get_program_args	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1191   %asm {{
            lda  #0
            rol  a
            sta  P8ZP_SCRATCH_REG
            lda  $00
            pha
            stz  $00
            stz  P8ZP_SCRATCH_W1
            lda  #$bf
            sta  P8ZP_SCRATCH_W1+1
            ldy  #0
-           lda  (P8ZP_SCRATCH_W1),y
            sta  (cx16.r0),y
            beq  +
_continue   iny
            cpy  cx16.r1L           ; max size?
            bne  -
            beq  ++
+           lda  P8ZP_SCRATCH_REG   ; binary?
            bne  _continue
+           pla
            sta  $00
  rts
	.pend
	.pend

; ---- block: 'sys' ----
sys	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1218   sys {
	target = $10


	; source: library:/prog8lib/cx16/syslib.p8:1221   const ubyte target = 16         ;  compilation target specifier.  64 = C64,  128 = C128,  16 = CommanderX16.
	; source: library:/prog8lib/cx16/syslib.p8:1218   sys {
	; source: library:/prog8lib/cx16/syslib.p8:1223   asmsub  init_system()  {

init_system	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1226   %asm {{
        sei
        lda  #0
        tax
        tay
        jsr  cx16.mouse_config  ; disable mouse
        cld
        lda  cx16.VERA_DC_VIDEO
        and  #%00000111 ; retain chroma + output mode
        sta  P8ZP_SCRATCH_REG
        lda  #$0a
        sta  $01        ; rom bank 10 (audio)
        jsr  cx16.audio_init ; silence
        stz  $01        ; rom bank 0 (kernal)
        jsr  cbm.IOINIT
        jsr  cbm.RESTOR
        jsr  cbm.CINT
        lda  cx16.VERA_DC_VIDEO
        and  #%11111000
        ora  P8ZP_SCRATCH_REG
        sta  cx16.VERA_DC_VIDEO  ; restore old output mode
        lda  #$90       ; black
        jsr  cbm.CHROUT
        lda  #1
        jsr  cbm.CHROUT ; swap fg/bg
        lda  #$9e       ; yellow
        jsr  cbm.CHROUT
        lda  #147       ; clear screen
        jsr  cbm.CHROUT
        lda  #8         ; disable charset case switch
        jsr  cbm.CHROUT
        lda  #PROG8_VARSHIGH_RAMBANK
        sta  $00    ; select ram bank
        lda  #0
        tax
        tay
        clc
        clv
        cli
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1269   asmsub  init_system_phase2()  {

init_system_phase2	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1270   %asm {{
        sei
        lda  cx16.CINV
        sta  restore_irq._orig_irqvec
        lda  cx16.CINV+1
        sta  restore_irq._orig_irqvec+1
        lda  #PROG8_VARSHIGH_RAMBANK
        sta  $00    ; select ram bank
        cli
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1283   asmsub  cleanup_at_exit() {

cleanup_at_exit	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1285   %asm {{
        lda  #1
        sta  $00        ; ram bank 1
        lda  #4
        sta  $01        ; rom bank 4 (basic)
        stz  $2d        ; hack to reset machine code monitor bank to 0
        jsr  cbm.CLRCHN		; reset i/o channels
_exitcodeCarry = *+1
        lda  #0
        lsr  a
_exitcode = *+1
        lda  #0        ; exit code possibly modified in exit()
_exitcodeX = *+1
        ldx  #0
_exitcodeY = *+1
        ldy  #0
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1305   asmsub  set_irq(uword handler @AY) clobbers(A)  {

set_irq	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1307   %asm {{
        sei
        sta  _modified+1
        sty  _modified+2
        lda  #<_irq_handler
        sta  cx16.CINV
        lda  #>_irq_handler
        sta  cx16.CINV+1
        lda  #1
        tsb  cx16.VERA_IEN      ; enable the vsync irq
        cli
        rts

_irq_handler
        jsr  sys.save_prog8_internals
        cld
_modified
        jsr  $ffff                      ; modified
        pha
		jsr  sys.restore_prog8_internals
		pla
		beq  +
		jmp  (restore_irq._orig_irqvec)   ; continue with normal kernal irq routine
+		lda  #1
		sta  cx16.VERA_ISR      ; clear Vera Vsync irq status
		ply
		plx
		pla
		rti
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1339   asmsub  restore_irq() clobbers(A) {

restore_irq	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1340   %asm {{
	    sei
	    lda  _orig_irqvec
	    sta  cx16.CINV
	    lda  _orig_irqvec+1
	    sta  cx16.CINV+1
	    lda  cx16.VERA_IEN
	    and  #%11110000     ; disable all Vera IRQs but the vsync
	    ora  #%00000001
	    sta  cx16.VERA_IEN
	    cli
	    rts
_orig_irqvec    .word  0
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1356   asmsub  set_rasterirq(uword handler @AY, uword rasterpos @R0) clobbers(A) {

set_rasterirq	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1358   %asm {{
            sei
            sta  _modified+1
            sty  _modified+2
            lda  cx16.r0
            ldy  cx16.r0+1
            lda  cx16.VERA_IEN
            and  #%11110000     ; disable all irqs but the line(raster) one
            ora  #%00000010
            sta  cx16.VERA_IEN
            lda  cx16.r0
            ldy  cx16.r0+1
            jsr  set_rasterline
            lda  #<_raster_irq_handler
            sta  cx16.CINV
            lda  #>_raster_irq_handler
            sta  cx16.CINV+1
            cli
            rts

_raster_irq_handler
            jsr  sys.save_prog8_internals
            cld
_modified   jsr  $ffff    ; modified
            jsr  sys.restore_prog8_internals
            ; end irq processing - don't use kernal's irq handling
            lda  #2
            tsb  cx16.VERA_ISR      ; clear Vera line irq status
            ply
            plx
            pla
            rti
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1393   asmsub  set_rasterline(uword line @AY) {

set_rasterline	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1394   %asm {{
        php
        sei
        sta  cx16.VERA_IRQLINE_L
        tya
        lsr  a
        bcs  +
        lda  #%10000000
        trb  cx16.VERA_IEN
        plp
        rts
+       lda  #%10000000
        tsb  cx16.VERA_IEN
        plp
        rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1412   asmsub reset_system() {

reset_system	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1415   %asm {{
            sei
            ldx #$42
            ldy #2
            lda #0
            jsr  cx16.i2c_write_byte
            bra  *
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1435   asmsub wait(uword jiffies @AY) clobbers(X) {

wait	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1439   %asm {{
            sta  P8ZP_SCRATCH_W1
            sty  P8ZP_SCRATCH_W1+1

_loop       lda  P8ZP_SCRATCH_W1
            ora  P8ZP_SCRATCH_W1+1
            bne  +
            rts

+           sei
            jsr  cbm.RDTIM
            cli
            sta  P8ZP_SCRATCH_B1
-           sei
            jsr  cbm.RDTIM
            cli
            cmp  P8ZP_SCRATCH_B1
            beq  -

            lda  P8ZP_SCRATCH_W1
            bne  +
            dec  P8ZP_SCRATCH_W1+1
+           dec  P8ZP_SCRATCH_W1
            bra  _loop
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1466   inline asmsub waitvsync()  {
	; source: library:/prog8lib/cx16/syslib.p8:1475   asmsub internal_stringcopy(uword source @R0, uword target @AY) clobbers (A,Y) {

internal_stringcopy	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1477   %asm {{
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		lda  cx16.r0
		ldy  cx16.r0+1
		jmp  prog8_lib.strcpy
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1486   asmsub memcopy(uword source @R0, uword target @R1, uword count @AY) clobbers(A,X,Y) {

memcopy	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1492   %asm {{
            cpy  #0
            bne  _longcopy

            ; copy <= 255 bytes
            tay
            bne  _copyshort
            rts     ; nothing to copy

_copyshort
            dey
            beq  +
-           lda  (cx16.r0),y
            sta  (cx16.r1),y
            dey
            bne  -
+           lda  (cx16.r0),y
            sta  (cx16.r1),y
            rts

_longcopy
            pha                         ; lsb(count) = remainder in last page
            tya
            tax                         ; x = num pages (1+)
            ldy  #0
-           lda  (cx16.r0),y
            sta  (cx16.r1),y
            iny
            bne  -
            inc  cx16.r0+1
            inc  cx16.r1+1
            dex
            bne  -
            ply
            bne  _copyshort
            rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1531   asmsub memset(uword mem @R0, uword numbytes @R1, ubyte value @A) clobbers(A,X,Y) {

memset	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1532   %asm {{
            ldy  cx16.r0
            sty  P8ZP_SCRATCH_W1
            ldy  cx16.r0+1
            sty  P8ZP_SCRATCH_W1+1
            ldx  cx16.r1
            ldy  cx16.r1+1
            jmp  prog8_lib.memset
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1543   asmsub memsetw(uword mem @R0, uword numwords @R1, uword value @AY) clobbers (A,X,Y) {

memsetw	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1544   %asm {{
            ldx  cx16.r0
            stx  P8ZP_SCRATCH_W1
            ldx  cx16.r0+1
            stx  P8ZP_SCRATCH_W1+1
            ldx  cx16.r1
            stx  P8ZP_SCRATCH_W2
            ldx  cx16.r1+1
            stx  P8ZP_SCRATCH_W2+1
            jmp  prog8_lib.memsetw
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1557   inline asmsub read_flags() -> ubyte @A {
	; source: library:/prog8lib/cx16/syslib.p8:1564   inline asmsub clear_carry() {
	; source: library:/prog8lib/cx16/syslib.p8:1570   inline asmsub set_carry() {
	; source: library:/prog8lib/cx16/syslib.p8:1576   inline asmsub clear_irqd() {
	; source: library:/prog8lib/cx16/syslib.p8:1582   inline asmsub set_irqd() {
	; source: library:/prog8lib/cx16/syslib.p8:1588   inline asmsub irqsafe_set_irqd() {
	; source: library:/prog8lib/cx16/syslib.p8:1595   inline asmsub irqsafe_clear_irqd() {
	; source: library:/prog8lib/cx16/syslib.p8:1601   inline asmsub disable_caseswitch() {
	; source: library:/prog8lib/cx16/syslib.p8:1608   inline asmsub enable_caseswitch() {
	; source: library:/prog8lib/cx16/syslib.p8:1615   asmsub save_prog8_internals() {

save_prog8_internals	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1616   %asm {{
            lda  P8ZP_SCRATCH_B1
            sta  save_SCRATCH_ZPB1
            lda  P8ZP_SCRATCH_REG
            sta  save_SCRATCH_ZPREG
            lda  P8ZP_SCRATCH_W1
            sta  save_SCRATCH_ZPWORD1
            lda  P8ZP_SCRATCH_W1+1
            sta  save_SCRATCH_ZPWORD1+1
            lda  P8ZP_SCRATCH_W2
            sta  save_SCRATCH_ZPWORD2
            lda  P8ZP_SCRATCH_W2+1
            sta  save_SCRATCH_ZPWORD2+1
            rts
save_SCRATCH_ZPB1	.byte  0
save_SCRATCH_ZPREG	.byte  0
save_SCRATCH_ZPWORD1	.word  0
save_SCRATCH_ZPWORD2	.word  0
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1637   asmsub restore_prog8_internals() {

restore_prog8_internals	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1638   %asm {{
            lda  save_prog8_internals.save_SCRATCH_ZPB1
            sta  P8ZP_SCRATCH_B1
            lda  save_prog8_internals.save_SCRATCH_ZPREG
            sta  P8ZP_SCRATCH_REG
            lda  save_prog8_internals.save_SCRATCH_ZPWORD1
            sta  P8ZP_SCRATCH_W1
            lda  save_prog8_internals.save_SCRATCH_ZPWORD1+1
            sta  P8ZP_SCRATCH_W1+1
            lda  save_prog8_internals.save_SCRATCH_ZPWORD2
            sta  P8ZP_SCRATCH_W2
            lda  save_prog8_internals.save_SCRATCH_ZPWORD2+1
            sta  P8ZP_SCRATCH_W2+1
            rts
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1655   asmsub exit(ubyte returnvalue @A) {

exit	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1657   %asm {{
            sta  cleanup_at_exit._exitcode
            ldx  prog8_lib.orig_stackpointer
            txs
            jmp  cleanup_at_exit
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1665   asmsub exit2(ubyte resulta @A, ubyte resultx @X, ubyte resulty @Y) {

exit2	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1667   %asm {{
            sta  cleanup_at_exit._exitcode
            stx  cleanup_at_exit._exitcodeX
            sty  cleanup_at_exit._exitcodeY
            ldx  prog8_lib.orig_stackpointer
            txs
            jmp  cleanup_at_exit
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1677   asmsub exit3(ubyte resulta @A, ubyte resultx @X, ubyte resulty @Y, bool carry @Pc) {

exit3	.proc
	; source: library:/prog8lib/cx16/syslib.p8:1679   %asm {{
            sta  cleanup_at_exit._exitcode
            lda  #0
            rol  a
            sta  cleanup_at_exit._exitcodeCarry
            stx  cleanup_at_exit._exitcodeX
            sty  cleanup_at_exit._exitcodeY
            ldx  prog8_lib.orig_stackpointer
            txs
            jmp  cleanup_at_exit
	.pend
	; source: library:/prog8lib/cx16/syslib.p8:1692   inline asmsub progend() -> uword @AY {
	; source: library:/prog8lib/cx16/syslib.p8:1699   inline asmsub push(ubyte value @A) {
	; source: library:/prog8lib/cx16/syslib.p8:1705   inline asmsub pushw(uword value @AY) {
	; source: library:/prog8lib/cx16/syslib.p8:1712   inline asmsub pop() -> ubyte @A {
	; source: library:/prog8lib/cx16/syslib.p8:1718   inline asmsub popw() -> uword @AY {
	.pend

; ---- block: 'conv' ----
conv	.proc
	; source: library:/prog8lib/conv.p8:3   conv {

; non-zeropage variables
string_out	; PETSCII:"????????????????"
	.byte  $3f, $3f, $3f, $3f, $3f, $3f, $3f, $3f, $3f, $3f, $3f, $3f, $3f, $3f, $3f, $3f
	.byte  $00

	; source: library:/prog8lib/conv.p8:9   str  @shared string_out = "????????????????"       ; result buffer for the string conversion routines
	; source: library:/prog8lib/conv.p8:5   %option no_symbol_prefixing, ignore_unused
	; source: library:/prog8lib/conv.p8:11   asmsub  str_ub0  (ubyte value @ A) clobbers(X) -> str @AY  {

str_ub0	.proc
	; source: library:/prog8lib/conv.p8:13   %asm {{
        jsr  conv.ubyte2decimal
        sty  string_out
        sta  string_out+1
        stx  string_out+2
        lda  #0
        sta  string_out+3
        lda  #<string_out
        ldy  #>string_out
        rts
	.pend
	; source: library:/prog8lib/conv.p8:26   asmsub  str_ub  (ubyte value @ A) clobbers(X) -> str @AY  {

str_ub	.proc
	; source: library:/prog8lib/conv.p8:28   %asm {{
		ldy  #0
		sty  P8ZP_SCRATCH_B1
		jsr  conv.ubyte2decimal
_output_byte_digits
        ; hundreds?
		cpy  #'0'
		beq  +
		pha
		tya
		ldy  P8ZP_SCRATCH_B1
		sta  string_out,y
		pla
		inc  P8ZP_SCRATCH_B1
		; tens?
+		ldy  P8ZP_SCRATCH_B1
        cmp  #'0'
		beq  +
		sta  string_out,y
		iny
+       ; ones.
        txa
        sta  string_out,y
        iny
        lda  #0
        sta  string_out,y
        lda  #<string_out
        ldy  #>string_out
        rts
	.pend
	; source: library:/prog8lib/conv.p8:60   asmsub  str_b  (byte value @ A) clobbers(X) -> str @AY  {

str_b	.proc
	; source: library:/prog8lib/conv.p8:62   %asm {{
        ldy  #0
        sty  P8ZP_SCRATCH_B1
        cmp  #0
        bpl  +
        pha
        lda  #'-'
        sta  string_out
        inc  P8ZP_SCRATCH_B1
        pla
+	    jsr  conv.byte2decimal
        bra  str_ub._output_byte_digits
	.pend
	; source: library:/prog8lib/conv.p8:77   asmsub  str_ubhex  (ubyte value @ A) clobbers(X) -> str @AY {

str_ubhex	.proc
	; source: library:/prog8lib/conv.p8:79   %asm {{
        jsr  conv.ubyte2hex
        sta  string_out
        sty  string_out+1
        lda  #0
        sta  string_out+2
        lda  #<string_out
        ldy  #>string_out
        rts
	.pend
	; source: library:/prog8lib/conv.p8:91   asmsub  str_ubbin  (ubyte value @ A) clobbers(X) -> str @AY  {

str_ubbin	.proc
	; source: library:/prog8lib/conv.p8:93   %asm {{
	    sta  P8ZP_SCRATCH_B1
	    ldy  #0
	    sty  string_out+8
	    ldy  #7
-	    lsr  P8ZP_SCRATCH_B1
        bcc  +
        lda  #'1'
        bne  _digit
+       lda  #'0'
_digit  sta  string_out,y
        dey
	    bpl  -
        lda  #<string_out
        ldy  #>string_out
	    rts
	.pend
	; source: library:/prog8lib/conv.p8:112   asmsub  str_uwbin  (uword value @ AY) clobbers(X) -> str @AY  {

str_uwbin	.proc
	; source: library:/prog8lib/conv.p8:114   %asm {{
	    sta  P8ZP_SCRATCH_REG
	    tya
	    jsr  str_ubbin
	    ldy  #0
	    sty  string_out+16
	    ldy  #7
-	    lsr  P8ZP_SCRATCH_REG
        bcc  +
        lda  #'1'
        bne  _digit
+       lda  #'0'
_digit  sta  string_out+8,y
        dey
	    bpl  -
        lda  #<string_out
        ldy  #>string_out
	    rts
	.pend
	; source: library:/prog8lib/conv.p8:135   asmsub  str_uwhex  (uword value @ AY) -> str @AY  {

str_uwhex	.proc
	; source: library:/prog8lib/conv.p8:137   %asm {{
        pha
        tya
        jsr  conv.ubyte2hex
        sta  string_out
        sty  string_out+1
        pla
        jsr  conv.ubyte2hex
        sta  string_out+2
        sty  string_out+3
        lda  #0
        sta  string_out+4
        lda  #<string_out
        ldy  #>string_out
        rts
	.pend
	; source: library:/prog8lib/conv.p8:155   asmsub  str_uw0  (uword value @ AY) clobbers(X) -> str @AY  {

str_uw0	.proc
	; source: library:/prog8lib/conv.p8:157   %asm {{
	    jsr  conv.uword2decimal
	    ldy  #0
-       lda  conv.uword2decimal.decTenThousands,y
        sta  string_out,y
        beq  +
        iny
        bne  -
+
        lda  #<string_out
        ldy  #>string_out
        rts
	.pend
	; source: library:/prog8lib/conv.p8:172   asmsub  str_uw  (uword value @ AY) clobbers(X) -> str @AY  {

str_uw	.proc
	; source: library:/prog8lib/conv.p8:174   %asm {{
	    jsr  conv.uword2decimal
	    ldx  #0
_output_digits
	    ldy  #0
-       lda  conv.uword2decimal.decTenThousands,y
        beq  _allzero
        cmp  #'0'
        bne  _gotdigit
        iny
        bne  -
_gotdigit   sta  string_out,x
        inx
        iny
        lda  conv.uword2decimal.decTenThousands,y
        bne  _gotdigit
_end    lda  #0
        sta  string_out,x
        lda  #<string_out
        ldy  #>string_out
        rts

_allzero    lda  #'0'
        sta  string_out,x
        inx
        bne  _end
	.pend
	; source: library:/prog8lib/conv.p8:203   asmsub  str_w  (word value @ AY) clobbers(X) -> str @AY  {

str_w	.proc
	; source: library:/prog8lib/conv.p8:205   %asm {{
	    cpy  #0
	    bpl  str_uw
	    pha
	    lda  #'-'
	    sta  string_out
        tya
        eor  #255
        tay
        pla
        eor  #255
        clc
        adc  #1
        bcc  +
        iny
+	    jsr  conv.uword2decimal
	    ldx  #1
	    bne  str_uw._output_digits
	    rts
	.pend
	; source: library:/prog8lib/conv.p8:230   asmsub  any2uword(str string @AY) clobbers(Y) -> ubyte @A {

any2uword	.proc
	; source: library:/prog8lib/conv.p8:236   %asm {{
	pha
	sta  P8ZP_SCRATCH_W1
	sty  P8ZP_SCRATCH_W1+1
	ldy  #0
	lda  (P8ZP_SCRATCH_W1),y
	ldy  P8ZP_SCRATCH_W1+1
	cmp  #'$'
	beq  _hex
	cmp  #'%'
	beq  _bin
	pla
	jsr  str2uword
	jmp  _result
_hex	pla
	jsr  hex2uword
	jmp  _result
_bin	pla
	jsr  bin2uword
_result
        pha
        lda  cx16.r15
        sta  P8ZP_SCRATCH_B1        ; result value
        pla
        sta  cx16.r15
        sty  cx16.r15+1
        lda  P8ZP_SCRATCH_B1
        rts
	.pend
	; source: library:/prog8lib/conv.p8:267   inline asmsub  str2ubyte(str string @AY) clobbers(Y) -> ubyte @A {
	; source: library:/prog8lib/conv.p8:277   inline asmsub  str2byte(str string @AY) clobbers(Y) -> byte @A {
	; source: library:/prog8lib/conv.p8:287   asmsub  str2uword(str string @AY) -> uword @AY {

str2uword	.proc
	; source: library:/prog8lib/conv.p8:292   %asm {{
_result = P8ZP_SCRATCH_W1
        	sta  P8ZP_SCRATCH_W2
        	sty  P8ZP_SCRATCH_W2+1
		ldy  #0
		sty  _result
		sty  _result+1
		sty  cx16.r15+1
_loop
		lda  (P8ZP_SCRATCH_W2),y
		sec
		sbc  #48
		bpl  _digit
_done
		sty  cx16.r15
		lda  _result
		ldy  _result+1
		rts
_digit
		cmp  #10
		bcs  _done
		; add digit to result
		pha
		jsr  _result_times_10
		pla
		clc
		adc  _result
		sta  _result
		bcc  +
		inc  _result+1
+		iny
		bne  _loop
		; never reached

_result_times_10     ; (W*4 + W)*2
		lda  _result+1
		sta  P8ZP_SCRATCH_REG
		lda  _result
		asl  a
		rol  P8ZP_SCRATCH_REG
		asl  a
		rol  P8ZP_SCRATCH_REG
		clc
		adc  _result
		sta  _result
		lda  P8ZP_SCRATCH_REG
		adc  _result+1
		asl  _result
		rol  a
		sta  _result+1
		rts
	.pend
	; source: library:/prog8lib/conv.p8:346   asmsub  str2word(str string @AY) -> word @AY {

str2word	.proc
	; source: library:/prog8lib/conv.p8:351   %asm {{
_result = P8ZP_SCRATCH_W1
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		ldy  #0
		sty  _result
		sty  _result+1
		sty  _negative
		sty  cx16.r15+1
		lda  (P8ZP_SCRATCH_W2),y
		cmp  #'+'
		bne  +
		iny
+		cmp  #'-'
		bne  _parse
		inc  _negative
		iny
_parse		lda  (P8ZP_SCRATCH_W2),y
		sec
		sbc  #48
		bpl  _digit
_done
		sty  cx16.r15
		lda  _negative
		beq  +
		sec
		lda  #0
		sbc  _result
		sta  _result
		lda  #0
		sbc  _result+1
		sta  _result+1
+		lda  _result
		ldy  _result+1
		rts
_digit
		cmp  #10
		bcs  _done
		; add digit to result
		pha
		jsr  str2uword._result_times_10
		pla
		clc
		adc  _result
		sta  _result
		bcc  +
		inc  _result+1
+		iny
		bne  _parse
		; never reached
_negative	.byte  0
	.pend
	; source: library:/prog8lib/conv.p8:405   asmsub  hex2uword(str string @AY) -> uword @AY {

hex2uword	.proc
	; source: library:/prog8lib/conv.p8:410   %asm {{
	sta  P8ZP_SCRATCH_W2
	sty  P8ZP_SCRATCH_W2+1
	ldy  #0
	sty  P8ZP_SCRATCH_W1
	sty  P8ZP_SCRATCH_W1+1
	sty  cx16.r15+1
	lda  (P8ZP_SCRATCH_W2),y
	beq  _stop
	cmp  #'$'
	bne  _loop
	iny
_loop
	lda  #0
	sta  P8ZP_SCRATCH_B1
	lda  (P8ZP_SCRATCH_W2),y
	beq  _stop
	cmp  #7                 ; screencode letters A-F are 1-6
	bcc  _add_letter
	and  #127
	cmp  #97
	bcs  _try_iso            ; maybe letter is iso:'a'-iso:'f' (97-102)
	cmp  #'g'
	bcs  _stop
	cmp  #'a'
	bcs  _add_letter
	cmp  #'0'
	bcc  _stop
	cmp  #'9'+1
	bcs  _stop
_calc
	asl  P8ZP_SCRATCH_W1
	rol  P8ZP_SCRATCH_W1+1
	asl  P8ZP_SCRATCH_W1
	rol  P8ZP_SCRATCH_W1+1
	asl  P8ZP_SCRATCH_W1
	rol  P8ZP_SCRATCH_W1+1
	asl  P8ZP_SCRATCH_W1
	rol  P8ZP_SCRATCH_W1+1
	and  #$0f
	clc
	adc  P8ZP_SCRATCH_B1
	ora  P8ZP_SCRATCH_W1
	sta  P8ZP_SCRATCH_W1
	iny
	bne  _loop
_stop
	sty  cx16.r15
	lda  P8ZP_SCRATCH_W1
	ldy  P8ZP_SCRATCH_W1+1
	rts
_add_letter
	pha
	lda  #9
	sta  P8ZP_SCRATCH_B1
	pla
	jmp  _calc
_try_iso
        cmp  #103
        bcs  _stop
        and  #63
        bne  _add_letter
	.pend
	; source: library:/prog8lib/conv.p8:475   asmsub  bin2uword(str string @AY) -> uword @AY {

bin2uword	.proc
	; source: library:/prog8lib/conv.p8:479   %asm {{
	sta  P8ZP_SCRATCH_W2
	sty  P8ZP_SCRATCH_W2+1
	ldy  #0
	sty  P8ZP_SCRATCH_W1
	sty  P8ZP_SCRATCH_W1+1
	sty  cx16.r15+1
	lda  (P8ZP_SCRATCH_W2),y
	beq  _stop
	cmp  #'%'
	bne  _loop
	iny
_loop
	lda  (P8ZP_SCRATCH_W2),y
	cmp  #'0'
	bcc  _stop
	cmp  #'2'
	bcs  _stop
_first  asl  P8ZP_SCRATCH_W1
	rol  P8ZP_SCRATCH_W1+1
	and  #1
	ora  P8ZP_SCRATCH_W1
	sta  P8ZP_SCRATCH_W1
	iny
	bne  _loop
_stop
	sty  cx16.r15
	lda  P8ZP_SCRATCH_W1
	ldy  P8ZP_SCRATCH_W1+1
	rts
	.pend
	; source: library:/prog8lib/conv.p8:515   asmsub  ubyte2decimal  (ubyte value @A) -> ubyte @Y, ubyte @A, ubyte @X  {

ubyte2decimal	.proc
	; source: library:/prog8lib/conv.p8:517   %asm {{
		ldy  #uword2decimal.ASCII_0_OFFSET
		jmp  uword2decimal.hex_try200
	.pend
	; source: library:/prog8lib/conv.p8:523   asmsub  uword2decimal  (uword value @AY) -> ubyte @Y, ubyte @A, ubyte @X  {

uword2decimal	.proc
	; source: library:/prog8lib/conv.p8:529   %asm {{
;Convert 16 bit Hex to Decimal (0-65535) Rev 2
;By Omegamatrix    Further optimizations by tepples
; routine from https://forums.nesdev.org/viewtopic.php?p=130363&sid=1944ba8bac4d6afa9c02e3cc42304e6b#p130363

;HexToDec99
; start in A
; end with A = 10's, decOnes (also in X)

;HexToDec255
; start in A
; end with Y = 100's, A = 10's, decOnes (also in X)

;HexToDec999
; start with A = high byte, Y = low byte
; end with Y = 100's, A = 10's, decOnes (also in X)
; requires 1 extra temp register on top of decOnes, could combine
; these two if HexToDec65535 was eliminated...

;HexToDec65535
; start with A/Y (low/high) as 16 bit value
; end with decTenThousand, decThousand, Y = 100's, A = 10's, decOnes (also in X)
; (irmen: I store Y and A in decHundreds and decTens too, so all of it can be easily printed)


ASCII_0_OFFSET 	= $30
temp       	    = P8ZP_SCRATCH_B1	; byte in zeropage
hexHigh      	= P8ZP_SCRATCH_W1	; byte in zeropage
hexLow       	= P8ZP_SCRATCH_W1+1	; byte in zeropage


HexToDec65535; SUBROUTINE
    sty    hexHigh               ;3  @9
    sta    hexLow                ;3  @12
    tya
    tax                          ;2  @14
    lsr    a                     ;2  @16
    lsr    a                     ;2  @18   integer divide 1024 (result 0-63)

    cpx    #$A7                  ;2  @20   account for overflow of multiplying 24 from 43,000 ($A7F8) onward,
    adc    #1                    ;2  @22   we can just round it to $A700, and the divide by 1024 is fine...

    ;at this point we have a number 1-65 that we have to times by 24,
    ;add to original sum, and Mod 1024 to get a remainder 0-999


    sta    temp                  ;3  @25
    asl    a                     ;2  @27
    adc    temp                  ;3  @30  x3
    tay                          ;2  @32
    lsr    a                     ;2  @34
    lsr    a                     ;2  @36
    lsr    a                     ;2  @38
    lsr    a                     ;2  @40
    lsr    a                     ;2  @42
    tax                          ;2  @44
    tya                          ;2  @46
    asl    a                     ;2  @48
    asl    a                     ;2  @50
    asl    a                     ;2  @52
    clc                          ;2  @54
    adc    hexLow                ;3  @57
    sta    hexLow                ;3  @60
    txa                          ;2  @62
    adc    hexHigh               ;3  @65
    sta    hexHigh               ;3  @68
    ror    a                     ;2  @70
    lsr    a                     ;2  @72
    tay                          ;2  @74    integer divide 1,000 (result 0-65)

    lsr    a                     ;2  @76    split the 1,000 and 10,000 digit
    tax                          ;2  @78
    lda    ShiftedBcdTab,x       ;4  @82
    tax                          ;2  @84
    rol    a                     ;2  @86
    and    #$0F                  ;2  @88
    ora    #ASCII_0_OFFSET
    sta    decThousands          ;3  @91
    txa                          ;2  @93
    lsr    a                     ;2  @95
    lsr    a                     ;2  @97
    lsr    a                     ;2  @99
    ora    #ASCII_0_OFFSET
    sta    decTenThousands       ;3  @102

    lda    hexLow                ;3  @105
    cpy    temp                  ;3  @108
    bmi    _doSubtract           ;2³ @110/111
    beq    _useZero               ;2³ @112/113
    adc    #23 + 24              ;2  @114
_doSubtract
    sbc    #23                   ;2  @116
    sta    hexLow                ;3  @119
_useZero
    lda    hexHigh               ;3  @122
    sbc    #0                    ;2  @124

Start100s
    and    #$03                  ;2  @126
    tax                          ;2  @128   0,1,2,3
    cmp    #2                    ;2  @130
    rol    a                     ;2  @132   0,2,5,7
    ora    #ASCII_0_OFFSET
    tay                          ;2  @134   Y = Hundreds digit

    lda    hexLow                ;3  @137
    adc    Mod100Tab,x           ;4  @141    adding remainder of 256, 512, and 256+512 (all mod 100)
    bcs    hex_doSub200             ;2³ @143/144

hex_try200
    cmp    #200                  ;2  @145
    bcc    hex_try100               ;2³ @147/148
hex_doSub200
    iny                          ;2  @149
    iny                          ;2  @151
    sbc    #200                  ;2  @153
hex_try100
    cmp    #100                  ;2  @155
    bcc    HexToDec99            ;2³ @157/158
    iny                          ;2  @159
    sbc    #100                  ;2  @161

HexToDec99; SUBROUTINE
    lsr    a                     ;2  @163
    tax                          ;2  @165
    lda    ShiftedBcdTab,x       ;4  @169
    tax                          ;2  @171
    rol    a                     ;2  @173
    and    #$0F                  ;2  @175
    ora    #ASCII_0_OFFSET
    sta    decOnes               ;3  @178
    txa                          ;2  @180
    lsr    a                     ;2  @182
    lsr    a                     ;2  @184
    lsr    a                     ;2  @186
    ora    #ASCII_0_OFFSET

    ; irmen: load X with ones, and store Y and A too, for easy printing afterwards
    sty  decHundreds
    sta  decTens
    ldx  decOnes
    rts                          ;6  @192   Y=hundreds, A = tens digit, X=ones digit


HexToDec999; SUBROUTINE
    sty    hexLow                ;3  @9
    jmp    Start100s             ;3  @12

Mod100Tab
    .byte 0,56,12,56+12

ShiftedBcdTab
    .byte $00,$01,$02,$03,$04,$08,$09,$0A,$0B,$0C
    .byte $10,$11,$12,$13,$14,$18,$19,$1A,$1B,$1C
    .byte $20,$21,$22,$23,$24,$28,$29,$2A,$2B,$2C
    .byte $30,$31,$32,$33,$34,$38,$39,$3A,$3B,$3C
    .byte $40,$41,$42,$43,$44,$48,$49,$4A,$4B,$4C

decTenThousands   	.byte  0
decThousands    	.byte  0
decHundreds		.byte  0
decTens			.byte  0
decOnes   		.byte  0
			.byte  0		; zero-terminate the decimal output string
	.pend
	; source: library:/prog8lib/conv.p8:698   asmsub  byte2decimal  (byte value @A) -> ubyte @Y, ubyte @A, ubyte @X  {

byte2decimal	.proc
	; source: library:/prog8lib/conv.p8:701   %asm {{
		cmp  #0
		bpl  +
		eor  #255
		clc
		adc  #1
+		jmp  ubyte2decimal
	.pend
	; source: library:/prog8lib/conv.p8:711   asmsub  ubyte2hex  (ubyte value @A) clobbers(X) -> ubyte @A, ubyte @Y  {

ubyte2hex	.proc
	; source: library:/prog8lib/conv.p8:713   %asm {{
		pha
		and  #$0f
		tax
		ldy  _hex_digits,x
		pla
		lsr  a
		lsr  a
		lsr  a
		lsr  a
		tax
		lda  _hex_digits,x
		rts

_hex_digits	.text "0123456789abcdef"	; can probably be reused for other stuff as well
	.pend
	; source: library:/prog8lib/conv.p8:731   asmsub  uword2hex  (uword value @AY) clobbers(A,Y)  {

uword2hex	.proc
	; source: library:/prog8lib/conv.p8:733   %asm {{
		sta  P8ZP_SCRATCH_REG
		tya
		jsr  ubyte2hex
		sta  output
		sty  output+1
		lda  P8ZP_SCRATCH_REG
		jsr  ubyte2hex
		sta  output+2
		sty  output+3
		rts
output		.text  "0000", $00      ; 0-terminated output buffer (to make printing easier)
	.pend
	.pend

; ---- block: 'floats' ----
floats	.proc
	; source: library:/prog8lib/cx16/floats.p8:6   floats {
	AYINT_facmo = $c6
	PI = 3.141592653589793
	TWOPI = 6.283185307179586
	π = 3.141592653589793

	AYINT = $fe00
	GIVAYF = $fe03
	FOUT = $fe06
	VAL_1 = $fe09
	GETADR = $fe0c
	FLOATC = $fe0f
	FSUB = $fe12
	FSUBT = $fe15
	FADD = $fe18
	FADDT = $fe1b
	FMULT = $fe1e
	FMULTT = $fe21
	FDIV = $fe24
	FDIVT = $fe27
	LOG = $fe2a
	INT = $fe2d
	SQR = $fe30
	NEGOP = $fe33
	FPWR = $fe36
	FPWRT = $fe39
	EXP = $fe3c
	COS = $fe3f
	SIN = $fe42
	TAN = $fe45
	ATN = $fe48
	ROUND = $fe4b
	ABS = $fe4e
	SIGN = $fe51
	FCOMP = $fe54
	RND_0 = $fe57
	RND = $fe57
	CONUPK = $fe5a
	ROMUPK = $fe5d
	MOVFRM = $fe60
	MOVFM = $fe63
	MOVMF = $fe66
	MOVFA = $fe69
	MOVAF = $fe6c
	FADDH = $fe6f
	ZEROFC = $fe72
	NORMAL = $fe75
	NEGFAC = $fe78
	MUL10 = $fe7b
	DIV10 = $fe7e
	MOVEF = $fe81
	SGN = $fe84
	FLOAT = $fe87
	FLOATS = $fe8a
	QINT = $fe8d
	FINLOG = $fe90

	; source: library:/prog8lib/cx16/floats.p8:9   const float  π      = 3.141592653589793
	; source: library:/prog8lib/cx16/floats.p8:10   const float  PI     = π
	; source: library:/prog8lib/cx16/floats.p8:11   const float  TWOPI  = 2*π
	; source: library:/prog8lib/cx16/floats.p8:176   &uword AYINT_facmo = $c6      ; $c6/$c7 contain result of AYINT
	; source: library:/prog8lib/cx16/floats.p8:6   floats {
	; source: library:/prog8lib/shared_floats_functions.p8:1   floats {
	; source: library:/prog8lib/cx16/floats.p8:22   romsub $fe00 = AYINT() clobbers(A,X,Y)          ; fac1-> signed word in 100-101 ($64-$65) MSB FIRST. (might throw ILLEGAL QUANTITY)

	; source: library:/prog8lib/cx16/floats.p8:27   romsub $fe03 = GIVAYF(ubyte lo @ Y, ubyte hi @ A) clobbers(A,X,Y)

	; source: library:/prog8lib/cx16/floats.p8:29   romsub $fe06 = FOUT() clobbers(X) -> uword @ AY             ; fac1 -> string, address returned in AY

	; source: library:/prog8lib/cx16/floats.p8:30   romsub $fe09 = VAL_1(uword string @XY, ubyte length @A) clobbers(A,X,Y) -> float @FAC1      ; convert ASCII string in XY and length in A, to floating point in FAC1. WARNING: only implemented in ROM 47+. Safer to use floats.parse() instead.

	; source: library:/prog8lib/cx16/floats.p8:34   romsub $fe0c = GETADR() clobbers(X) -> ubyte @ Y, ubyte @ A

	; source: library:/prog8lib/cx16/floats.p8:35   romsub $fe0f = FLOATC() clobbers(A,X,Y)                     ; convert address to floating point

	; source: library:/prog8lib/cx16/floats.p8:37   romsub $fe12 = FSUB(uword mflpt @ AY) clobbers(A,X,Y)       ; fac1 = mflpt from A/Y - fac1

	; source: library:/prog8lib/cx16/floats.p8:38   romsub $fe15 = FSUBT() clobbers(A,X,Y)                      ; fac1 = fac2-fac1   mind the order of the operands

	; source: library:/prog8lib/cx16/floats.p8:39   romsub $fe18 = FADD(uword mflpt @ AY) clobbers(A,X,Y)       ; fac1 += mflpt value from A/Y

	; source: library:/prog8lib/cx16/floats.p8:40   romsub $fe1b = FADDT() clobbers(A,X,Y)                      ; fac1 += fac2

	; source: library:/prog8lib/cx16/floats.p8:41   romsub $fe1e = FMULT(uword mflpt @ AY) clobbers(A,X,Y)      ; fac1 *= mflpt value from A/Y

	; source: library:/prog8lib/cx16/floats.p8:42   romsub $fe21 = FMULTT() clobbers(A,X,Y)                     ; fac1 *= fac2

	; source: library:/prog8lib/cx16/floats.p8:43   romsub $fe24 = FDIV(uword mflpt @ AY) clobbers(A,X,Y)       ; fac1 = mflpt in A/Y / fac1

	; source: library:/prog8lib/cx16/floats.p8:44   romsub $fe27 = FDIVT() clobbers(A,X,Y)                      ; fac1 = fac2/fac1  mind the order of the operands

	; source: library:/prog8lib/cx16/floats.p8:45   romsub $fe2a = LOG() clobbers(A,X,Y)                        ; fac1 = LN(fac1)  (natural log)

	; source: library:/prog8lib/cx16/floats.p8:46   romsub $fe2d = INT() clobbers(A,X,Y)                        ; INT() truncates, use ROUND or FADDH first to round instead of trunc

	; source: library:/prog8lib/cx16/floats.p8:47   romsub $fe30 = SQR() clobbers(A,X,Y)                        ; fac1 = SQRT(fac1)

	; source: library:/prog8lib/cx16/floats.p8:48   romsub $fe33 = NEGOP() clobbers(A)                          ; switch the sign of fac1 (fac1 = -fac1)

	; source: library:/prog8lib/cx16/floats.p8:49   romsub $fe36 = FPWR(uword mflpt @ AY) clobbers(A,X,Y)       ; fac1 = fac2 ** float in A/Y

	; source: library:/prog8lib/cx16/floats.p8:50   romsub $fe39 = FPWRT() clobbers(A,X,Y)                      ; fac1 = fac2 ** fac1

	; source: library:/prog8lib/cx16/floats.p8:51   romsub $fe3c = EXP() clobbers(A,X,Y)                        ; fac1 = EXP(fac1)  (e ** fac1)

	; source: library:/prog8lib/cx16/floats.p8:52   romsub $fe3f = COS() clobbers(A,X,Y)                        ; fac1 = COS(fac1)

	; source: library:/prog8lib/cx16/floats.p8:53   romsub $fe42 = SIN() clobbers(A,X,Y)                        ; fac1 = SIN(fac1)

	; source: library:/prog8lib/cx16/floats.p8:54   romsub $fe45 = TAN() clobbers(A,X,Y)                        ; fac1 = TAN(fac1)

	; source: library:/prog8lib/cx16/floats.p8:55   romsub $fe48 = ATN() clobbers(A,X,Y)                        ; fac1 = ATN(fac1)

	; source: library:/prog8lib/cx16/floats.p8:56   romsub $fe4b = ROUND() clobbers(A,X,Y)                      ; round fac1

	; source: library:/prog8lib/cx16/floats.p8:57   romsub $fe4e = ABS() clobbers(A,X,Y)                        ; fac1 = ABS(fac1)

	; source: library:/prog8lib/cx16/floats.p8:58   romsub $fe51 = SIGN() clobbers(X,Y) -> ubyte @ A            ; SIGN(fac1) to A, $ff, $0, $1 for negative, zero, positive

	; source: library:/prog8lib/cx16/floats.p8:59   romsub $fe54 = FCOMP(uword mflpt @ AY) clobbers(X,Y) -> ubyte @ A   ; A = compare fac1 to mflpt in A/Y, 0=equal 1=fac1 is greater, 255=fac1 is less than

	; source: library:/prog8lib/cx16/floats.p8:60   romsub $fe57 = RND_0() clobbers(A,X,Y)                      ; fac1 = RND(fac1) float random number generator  NOTE: incompatible with C64's RND routine

	; source: library:/prog8lib/cx16/floats.p8:61   romsub $fe57 = RND() clobbers(A,X,Y)                        ; alias for RND_0

	; source: library:/prog8lib/cx16/floats.p8:62   romsub $fe5a = CONUPK(uword mflpt @ AY) clobbers(A,X,Y)     ; load mflpt value from memory in A/Y into fac2

	; source: library:/prog8lib/cx16/floats.p8:63   romsub $fe5d = ROMUPK(uword mflpt @ AY) clobbers(A,X,Y)     ; load mflpt value from memory in current bank in A/Y into fac2

	; source: library:/prog8lib/cx16/floats.p8:64   romsub $fe60 = MOVFRM(uword mflpt @ AY) clobbers(A,X,Y)     ; load mflpt value from memory in A/Y into fac1  (use MOVFM instead)

	; source: library:/prog8lib/cx16/floats.p8:65   romsub $fe63 = MOVFM(uword mflpt @ AY) clobbers(A,X,Y)      ; load mflpt value from memory in A/Y into fac1

	; source: library:/prog8lib/cx16/floats.p8:66   romsub $fe66 = MOVMF(uword mflpt @ XY) clobbers(A,X,Y)      ; store fac1 to memory  X/Y as 5-byte mflpt

	; source: library:/prog8lib/cx16/floats.p8:67   romsub $fe69 = MOVFA() clobbers(A,X)                        ; copy fac2 to fac1

	; source: library:/prog8lib/cx16/floats.p8:68   romsub $fe6c = MOVAF() clobbers(A,X)                        ; copy fac1 to fac2  (rounded)

	; source: library:/prog8lib/cx16/floats.p8:71   romsub $fe6f = FADDH() clobbers(A,X,Y)                      ; fac1 += 0.5, for rounding- call this before INT

	; source: library:/prog8lib/cx16/floats.p8:72   romsub $fe72 = ZEROFC() clobbers(A,X,Y)                     ; fac1 = 0

	; source: library:/prog8lib/cx16/floats.p8:73   romsub $fe75 = NORMAL() clobbers(A,X,Y)                     ; normalize fac1

	; source: library:/prog8lib/cx16/floats.p8:74   romsub $fe78 = NEGFAC() clobbers(A)                         ; switch the sign of fac1 (fac1 = -fac1) (doesn't work, juse use NEGOP() instead!)

	; source: library:/prog8lib/cx16/floats.p8:75   romsub $fe7b = MUL10() clobbers(A,X,Y)                      ; fac1 *= 10

	; source: library:/prog8lib/cx16/floats.p8:76   romsub $fe7e = DIV10() clobbers(A,X,Y)                      ; fac1 /= 10 , CAUTION: result is always positive! Have to restore sign manually!

	; source: library:/prog8lib/cx16/floats.p8:77   romsub $fe81 = MOVEF() clobbers(A,X)                        ; copy fac1 to fac2

	; source: library:/prog8lib/cx16/floats.p8:78   romsub $fe84 = SGN() clobbers(A,X,Y)                        ; fac1 = SGN(fac1), result of SIGN (-1, 0 or 1)

	; source: library:/prog8lib/cx16/floats.p8:79   romsub $fe87 = FLOAT() clobbers(A,X,Y)                      ; FAC = (s8).A

	; source: library:/prog8lib/cx16/floats.p8:80   romsub $fe8a = FLOATS() clobbers(A,X,Y)                     ; FAC = (s16)facho+1:facho

	; source: library:/prog8lib/cx16/floats.p8:81   romsub $fe8d = QINT() clobbers(A,X,Y)                       ; facho:facho+1:facho+2:facho+3 = u32(FAC)

	; source: library:/prog8lib/cx16/floats.p8:82   romsub $fe90 = FINLOG(byte value @A) clobbers (A, X, Y)     ; fac1 += signed byte in A

	; source: library:/prog8lib/cx16/floats.p8:86   asmsub  FREADSA  (byte value @A) clobbers(A,X,Y) {

FREADSA	.proc
	; source: library:/prog8lib/cx16/floats.p8:88   %asm {{
        tay
        bpl  +
        lda  #$ff
        jmp  GIVAYF
+       lda  #0
        jmp  GIVAYF
	.pend
	; source: library:/prog8lib/cx16/floats.p8:98   asmsub  GIVUAYFAY  (uword value @ AY) clobbers(A,X,Y)  {

GIVUAYFAY	.proc
	; source: library:/prog8lib/cx16/floats.p8:100   %asm {{
	sty  $c4        ; facmo     ($64 on c128)
	sta  $c5        ; facmo+1   ($65 on c128)
	ldx  #$90
	sec
	jmp  FLOATC
	.pend
	; source: library:/prog8lib/cx16/floats.p8:109   asmsub  GIVAYFAY  (uword value @ AY) clobbers(A,X,Y)  {

GIVAYFAY	.proc
	; source: library:/prog8lib/cx16/floats.p8:111   %asm {{
		sta  P8ZP_SCRATCH_B1
		tya
		ldy  P8ZP_SCRATCH_B1
		jmp  GIVAYF		; this uses the inverse order, Y/A
	.pend
	; source: library:/prog8lib/cx16/floats.p8:119   asmsub  GETADRAY  () clobbers(X) -> uword @ AY  {

GETADRAY	.proc
	; source: library:/prog8lib/cx16/floats.p8:121   %asm {{
		jsr  GETADR		; this uses the inverse order, Y/A
		sta  P8ZP_SCRATCH_B1
		tya
		ldy  P8ZP_SCRATCH_B1
		rts
	.pend
	; source: library:/prog8lib/cx16/floats.p8:130   asmsub  FREADUY (ubyte value @Y) {

FREADUY	.proc
	; source: library:/prog8lib/cx16/floats.p8:132   %asm {{
        lda  #0
        jmp  GIVAYF
	.pend
	; source: library:/prog8lib/cx16/floats.p8:138   asmsub parse(str value @AY) -> float @FAC1 {

parse	.proc
	; source: library:/prog8lib/cx16/floats.p8:143   %asm {{
        ldx  VAL_1
        cpx  #$4c       ; is there an implementation in VAL_1? (test for JMP)
        bne  +          ; no, do it ourselves
        pha             ; yes, count the length and call rom VAL_1.
        phy
        jsr  prog8_lib.strlen
        tya
        ply
        plx
        jmp  VAL_1
+       sta  $a9    ; 'index' variable
        sty  $aa
        jsr  prog8_lib.strlen
        lda  $deb6
        cmp  #$d0   ; sanity check for kernal routine correct
        bne  +
        tya
        jmp  $deb6   ; kernal version dependent...
+       ; print error message if routine is borked in kernal, and exit program
        ldy  #0
-       lda  _msg,y
        beq  +
        jsr  cbm.CHROUT
        iny
        bne  -
+       jmp  sys.exit

_msg    .text 13,"?val kaputt",13,0
	.pend
	; source: library:/prog8lib/cx16/floats.p8:185   asmsub normalize(float value @FAC1) -> float @ FAC1 {

normalize	.proc
	; source: library:/prog8lib/cx16/floats.p8:186   %asm {{
        jmp  floats.NORMAL
	.pend
	; source: library:/prog8lib/cx16/floats.p8:191   %asminclude "library:c64/floats.asm"
; --- low level floating point assembly routines for the C64

FL_ONE_const	.byte  129     			; 1.0
FL_ZERO_const	.byte  0,0,0,0,0		; 0.0
FL_LOG2_const	.byte  $80, $31, $72, $17, $f8	; log(2)


floats_temp_var         .byte  0,0,0,0,0        ; temporary storage for a float

ub2float	.proc
		; -- convert ubyte in SCRATCH_ZPB1 to float at address A/Y
		;    clobbers A, X, Y
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		ldy  P8ZP_SCRATCH_B1
		lda  #0
		jsr  GIVAYF
_fac_to_mem	ldx  P8ZP_SCRATCH_W2
		ldy  P8ZP_SCRATCH_W2+1
		jmp  MOVMF
		.pend

b2float		.proc
		; -- convert byte in SCRATCH_ZPB1 to float at address A/Y
		;    clobbers A, X, Y
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		lda  P8ZP_SCRATCH_B1
		jsr  FREADSA
		jmp  ub2float._fac_to_mem
		.pend

uw2float	.proc
		; -- convert uword in SCRATCH_ZPWORD1 to float at address A/Y
		;    clobbers X
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		lda  P8ZP_SCRATCH_W1
		ldy  P8ZP_SCRATCH_W1+1
		jsr  GIVUAYFAY
		jmp  ub2float._fac_to_mem
		.pend

w2float		.proc
		; -- convert word in SCRATCH_ZPWORD1 to float at address A/Y
		;    clobbers X
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		ldy  P8ZP_SCRATCH_W1
		lda  P8ZP_SCRATCH_W1+1
		jsr  GIVAYF
		jmp  ub2float._fac_to_mem
		.pend


cast_from_uw	.proc
		; -- uword in A/Y into float var at (P8ZP_SCRATCH_W2)
		;    clobbers X
		jsr  GIVUAYFAY
		jmp  ub2float._fac_to_mem
		.pend


cast_from_w	.proc
		; -- word in A/Y into float var at (P8ZP_SCRATCH_W2)
		;    clobbers X
		jsr  GIVAYFAY
		jmp  ub2float._fac_to_mem
		.pend


cast_from_ub	.proc
		; -- ubyte in Y into float var at (P8ZP_SCRATCH_W2)
		;    clobbers X
		jsr  FREADUY
		jmp  ub2float._fac_to_mem
		.pend


cast_from_b	.proc
		; -- byte in A into float var at (P8ZP_SCRATCH_W2)
		;    clobbers X
		jsr  FREADSA
		jmp  ub2float._fac_to_mem
		.pend

cast_as_uw_into_ya	.proc               ; also used for float 2 ub
		; -- cast float at A/Y to uword into Y/A
		;    clobbers X
		jsr  MOVFM
		jmp  cast_FAC1_as_uw_into_ya
		.pend

cast_as_w_into_ay	.proc               ; also used for float 2 b
		; -- cast float at A/Y to word into A/Y
		;    clobbers X
		jsr  MOVFM
		jmp  cast_FAC1_as_w_into_ay
		.pend

cast_as_bool_into_a	.proc
		; -- cast float at A/Y to bool into A
		;    clobbers X
		jsr  MOVFM
		jmp  cast_FAC1_as_bool_into_a
		.pend

cast_FAC1_as_bool_into_a	.proc
		; -- cast fac1 to bool into A
		;    clobbers X
		jsr  SIGN
		and  #1
		rts
		.pend

cast_FAC1_as_uw_into_ya	.proc               ; also used for float 2 ub
		; -- cast fac1 to uword into Y/A
		;    clobbers X
		jmp  GETADR     ; into Y/A
		.pend

cast_FAC1_as_w_into_ay	.proc               ; also used for float 2 b
		; -- cast fac1 to word into A/Y
		;    clobbers X
		jsr  AYINT
		ldy  floats.AYINT_facmo
		lda  floats.AYINT_facmo+1
		rts
		.pend


copy_float	.proc
		; -- copies the 5 bytes of the mflt value pointed to by P8ZP_SCRATCH_W1,
		;    into the 5 bytes pointed to by A/Y.  Clobbers A,Y.
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		ldy  #0
		lda  (P8ZP_SCRATCH_W1),y
		sta  (P8ZP_SCRATCH_W2),y
		iny
		lda  (P8ZP_SCRATCH_W1),y
		sta  (P8ZP_SCRATCH_W2),y
		iny
		lda  (P8ZP_SCRATCH_W1),y
		sta  (P8ZP_SCRATCH_W2),y
		iny
		lda  (P8ZP_SCRATCH_W1),y
		sta  (P8ZP_SCRATCH_W2),y
		iny
		lda  (P8ZP_SCRATCH_W1),y
		sta  (P8ZP_SCRATCH_W2),y
		rts
		.pend

inc_var_f	.proc
		; -- add 1 to float pointed to by A/Y
		;    clobbers X
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		jsr  MOVFM
		lda  #<FL_ONE_const
		ldy  #>FL_ONE_const
		jsr  FADD
		ldx  P8ZP_SCRATCH_W1
		ldy  P8ZP_SCRATCH_W1+1
		jmp  MOVMF
		.pend

dec_var_f	.proc
		; -- subtract 1 from float pointed to by A/Y
		;    clobbers X
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		lda  #<FL_ONE_const
		ldy  #>FL_ONE_const
		jsr  MOVFM
		lda  P8ZP_SCRATCH_W1
		ldy  P8ZP_SCRATCH_W1+1
		jsr  FSUB
		ldx  P8ZP_SCRATCH_W1
		ldy  P8ZP_SCRATCH_W1+1
		jmp  MOVMF
		.pend


fmath_float1	.byte 0,0,0,0,0	; storage for a mflpt5 value
fmath_float2	.byte 0,0,0,0,0	; storage for a mflpt5 value


var_fac1_less_f	.proc
		; -- is the float in FAC1 < the variable AY? Result in A. Clobbers X.
		jsr  FCOMP
		cmp  #255
		beq  +
		lda  #0
		rts
+		lda  #1
		rts
		.pend

var_fac1_lesseq_f	.proc
		; -- is the float in FAC1 <= the variable AY?  Result in A. Clobbers X.
		jsr  FCOMP
		cmp  #0
		beq  +
		cmp  #255
		beq  +
		lda  #0
		rts
+		lda  #1
		rts
		.pend

var_fac1_greater_f	.proc
		; -- is the float in FAC1 > the variable AY?  Result in A. Clobbers X.
		jsr  FCOMP
		cmp  #1
		beq  +
		lda  #0
		rts
+		lda  #1
		rts
		.pend

var_fac1_greatereq_f	.proc
		; -- is the float in FAC1 >= the variable AY?  Result in A. Clobbers X.
		jsr  FCOMP
		cmp  #0
		beq  +
		cmp  #1
		beq  +
		lda  #0
		rts
+		lda  #1
		rts
		.pend

var_fac1_equal_f	.proc
		; -- are the floats numbers in FAC1 and the variable AY identical?   Result in A. Clobbers X.
		jsr  FCOMP
		and  #1
		eor  #1
		rts
		.pend

var_fac1_notequal_f	.proc
		; -- are the floats numbers in FAC1 and the variable AY *not* identical?   Result in A. Clobbers X.
		jsr  FCOMP
		and  #1
		rts
		.pend

vars_equal_f	.proc
		; -- are the mflpt5 numbers in P8ZP_SCRATCH_W1 and AY identical?  Result in A
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		ldy  #0
		lda  (P8ZP_SCRATCH_W1),y
		cmp  (P8ZP_SCRATCH_W2),y
		bne  _false
		iny
		lda  (P8ZP_SCRATCH_W1),y
		cmp  (P8ZP_SCRATCH_W2),y
		bne  _false
		iny
		lda  (P8ZP_SCRATCH_W1),y
		cmp  (P8ZP_SCRATCH_W2),y
		bne  _false
		iny
		lda  (P8ZP_SCRATCH_W1),y
		cmp  (P8ZP_SCRATCH_W2),y
		bne  _false
		iny
		lda  (P8ZP_SCRATCH_W1),y
		cmp  (P8ZP_SCRATCH_W2),y
		bne  _false
		lda  #1
		rts
_false		lda  #0
		rts
		.pend


vars_less_f	.proc
		; -- is float in AY < float in P8ZP_SCRATCH_W2 ?   Result in A. Clobbers X.
		jsr  MOVFM
		lda  P8ZP_SCRATCH_W2
		ldy  P8ZP_SCRATCH_W2+1
		jsr  FCOMP
		cmp  #255
		bne  +
		lda  #1
		rts
+		lda  #0
		rts
		.pend

vars_lesseq_f	.proc
		; -- is float in AY <= float in P8ZP_SCRATCH_W2 ?  Result in A. Clobbers X.
		jsr  MOVFM
		lda  P8ZP_SCRATCH_W2
		ldy  P8ZP_SCRATCH_W2+1
		jsr  FCOMP
		cmp  #255
		bne  +
-		lda  #1
		rts
+		cmp  #0
		beq  -
		lda  #0
		rts
		.pend

less_f		.proc
		; -- is f1 < f2?    Result in A. Clobbers X.
		jsr  compare_floats
		cmp  #255
		beq  compare_floats._return_true
		bne  compare_floats._return_false
		.pend


lesseq_f	.proc
		; -- is f1 <= f2?  Result in A. Clobbers X.
		jsr  compare_floats
		cmp  #255
		beq  compare_floats._return_true
		cmp  #0
		beq  compare_floats._return_true
		bne  compare_floats._return_false
		.pend

greater_f	.proc
		; -- is f1 > f2?  Result in A. Clobbers X.
		jsr  compare_floats
		cmp  #1
		beq  compare_floats._return_true
		bne  compare_floats._return_false
		.pend

greatereq_f	.proc
		; -- is f1 >= f2?  Result in A. Clobbers X.
		jsr  compare_floats
		cmp  #1
		beq  compare_floats._return_true
		cmp  #0
		beq  compare_floats._return_true
		bne  compare_floats._return_false
		.pend

set_array_float_from_fac1	.proc
		; -- set the float in FAC1 in the array (index in A, array in P8ZP_SCRATCH_W1)
		;    clobbers X
		sta  P8ZP_SCRATCH_B1
		asl  a
		asl  a
		clc
		adc  P8ZP_SCRATCH_B1
		ldy  P8ZP_SCRATCH_W1+1
		clc
		adc  P8ZP_SCRATCH_W1
		bcc  +
		iny
+		tax
		jmp  MOVMF
		.pend


set_0_array_float	.proc
		; -- set a float in an array to zero (index in A, array in P8ZP_SCRATCH_W1)
		sta  P8ZP_SCRATCH_B1
		asl  a
		asl  a
		clc
		adc  P8ZP_SCRATCH_B1
		tay
		lda  #0
		sta  (P8ZP_SCRATCH_W1),y
		iny
		sta  (P8ZP_SCRATCH_W1),y
		iny
		sta  (P8ZP_SCRATCH_W1),y
		iny
		sta  (P8ZP_SCRATCH_W1),y
		iny
		sta  (P8ZP_SCRATCH_W1),y
		rts
		.pend


set_array_float		.proc
		; -- set a float in an array to a value (index in A, float in P8ZP_SCRATCH_W1, array in P8ZP_SCRATCH_W2)
		sta  P8ZP_SCRATCH_B1
		asl  a
		asl  a
		clc
		adc  P8ZP_SCRATCH_B1
		adc  P8ZP_SCRATCH_W2
		ldy  P8ZP_SCRATCH_W2+1
		bcc  +
		iny
+		jmp  copy_float
			; -- copies the 5 bytes of the mflt value pointed to by SCRATCH_ZPWORD1,
			;    into the 5 bytes pointed to by A/Y.  Clobbers A,Y.
		.pend


pushFAC1    .proc
	;-- push floating point in FAC onto the cpu stack
	; save return address
	pla
	sta  P8ZP_SCRATCH_W2
	pla
	sta  P8ZP_SCRATCH_W2+1
	ldx  #<floats.floats_temp_var
	ldy  #>floats.floats_temp_var
	jsr  floats.MOVMF
	lda  floats.floats_temp_var
	pha
	lda  floats.floats_temp_var+1
	pha
	lda  floats.floats_temp_var+2
	pha
	lda  floats.floats_temp_var+3
	pha
	lda  floats.floats_temp_var+4
	pha
	; re-push return address
	lda  P8ZP_SCRATCH_W2+1
	pha
	lda  P8ZP_SCRATCH_W2
	pha
	rts
	.pend

popFAC .proc
	; -- pop floating point value from cpu stack into FAC1 or FAC2 (
	;    carry flag clear=FAC1, carry set=FAC2
	; save return address
	pla
	sta  P8ZP_SCRATCH_W2
	pla
	sta  P8ZP_SCRATCH_W2+1
	pla
	sta  floats.floats_temp_var+4
	pla
	sta  floats.floats_temp_var+3
	pla
	sta  floats.floats_temp_var+2
	pla
	sta  floats.floats_temp_var+1
	pla
	sta  floats.floats_temp_var
	lda  #<floats.floats_temp_var
	ldy  #>floats.floats_temp_var
	bcs  +
	jsr  floats.MOVFM
	jmp  ++
+       jsr  floats.CONUPK
+	; re-push return address
	lda  P8ZP_SCRATCH_W2+1
	pha
	lda  P8ZP_SCRATCH_W2
	pha
	rts
	.pend
	; source: library:/prog8lib/cx16/floats.p8:192   %asminclude "library:c64/floats_funcs.asm"
; --- floating point builtin functions


func_sign_f_into_A	.proc
		jsr  MOVFM
		jmp  SIGN
		.pend

func_swap_f	.proc
		; -- swap floats pointed to by SCRATCH_ZPWORD1, SCRATCH_ZPWORD2
		ldy  #4
-               lda  (P8ZP_SCRATCH_W1),y
		pha
		lda  (P8ZP_SCRATCH_W2),y
		sta  (P8ZP_SCRATCH_W1),y
		pla
		sta  (P8ZP_SCRATCH_W2),y
		dey
		bpl  -
		rts
		.pend

func_reverse_f	.proc
		; --- reverse an array of floats (array in P8ZP_SCRATCH_W1, num elements in A)
_left_index = P8ZP_SCRATCH_W2
_right_index = P8ZP_SCRATCH_W2+1
_loop_count = P8ZP_SCRATCH_REG
		pha
		jsr  a_times_5
		sec
		sbc  #5
		sta  _right_index
		lda  #0
		sta  _left_index
		pla
		lsr  a
		sta  _loop_count
_loop		; push the left indexed float on the stack
		ldy  _left_index
		lda  (P8ZP_SCRATCH_W1),y
		pha
		iny
		lda  (P8ZP_SCRATCH_W1),y
		pha
		iny
		lda  (P8ZP_SCRATCH_W1),y
		pha
		iny
		lda  (P8ZP_SCRATCH_W1),y
		pha
		iny
		lda  (P8ZP_SCRATCH_W1),y
		pha
		; copy right index float to left index float
		ldy  _right_index
		lda  (P8ZP_SCRATCH_W1),y
		ldy  _left_index
		sta  (P8ZP_SCRATCH_W1),y
		inc  _left_index
		inc  _right_index
		ldy  _right_index
		lda  (P8ZP_SCRATCH_W1),y
		ldy  _left_index
		sta  (P8ZP_SCRATCH_W1),y
		inc  _left_index
		inc  _right_index
		ldy  _right_index
		lda  (P8ZP_SCRATCH_W1),y
		ldy  _left_index
		sta  (P8ZP_SCRATCH_W1),y
		inc  _left_index
		inc  _right_index
		ldy  _right_index
		lda  (P8ZP_SCRATCH_W1),y
		ldy  _left_index
		sta  (P8ZP_SCRATCH_W1),y
		inc  _left_index
		inc  _right_index
		ldy  _right_index
		lda  (P8ZP_SCRATCH_W1),y
		ldy  _left_index
		sta  (P8ZP_SCRATCH_W1),y
		; pop the float off the stack into the right index float
		ldy  _right_index
		pla
		sta  (P8ZP_SCRATCH_W1),y
		dey
		pla
		sta  (P8ZP_SCRATCH_W1),y
		dey
		pla
		sta  (P8ZP_SCRATCH_W1),y
		dey
		pla
		sta  (P8ZP_SCRATCH_W1),y
		dey
		pla
		sta  (P8ZP_SCRATCH_W1),y
		inc  _left_index
		lda  _right_index
		sec
		sbc  #9
		sta  _right_index
		dec  _loop_count
		bne  _loop
		rts

		.pend



a_times_5	.proc
		sta  P8ZP_SCRATCH_B1
		asl  a
		asl  a
		clc
		adc  P8ZP_SCRATCH_B1
		rts
		.pend

func_any_f_into_A	.proc
		jsr  a_times_5
		jmp  prog8_lib.func_any_b_into_A
		.pend

func_all_f_into_A	.proc
		jsr  a_times_5
		jmp  prog8_lib.func_all_b_into_A
		.pend

func_any_f_stack	.proc
		jsr  a_times_5
		jmp  prog8_lib.func_any_b_stack
		.pend

func_all_f_stack	.proc
		jsr  a_times_5
		jmp  prog8_lib.func_all_b_stack
		.pend

func_abs_f_into_FAC1    .proc
        jsr  MOVFM
        jmp  ABS
	.pend

func_sqrt_into_FAC1     .proc
        jsr  MOVFM
        jmp  SQR
	.pend



containment_floatarray    .proc
	; -- check if a value exists in a float array.
	;    parameters: FAC1: value to check, P8ZP_SCRATCH_W1: address of the word array, Y = length of array (>=1).
	;    returns boolean 0/1 in A.
	sty  P8ZP_SCRATCH_REG
	ldx  #<floats.floats_temp_var
	ldy  #>floats.floats_temp_var
	jsr  floats.MOVMF
	ldx  P8ZP_SCRATCH_REG
	ldy  #0
-       lda  floats.floats_temp_var
	cmp  (P8ZP_SCRATCH_W1),y
	bne  _firstmiss
	iny
	lda  floats.floats_temp_var+1
	cmp  (P8ZP_SCRATCH_W1),y
	bne  _secondmiss
	iny
	lda  floats.floats_temp_var+2
	cmp  (P8ZP_SCRATCH_W1),y
	bne  _thirdmiss
	iny
	lda  floats.floats_temp_var+3
	cmp  (P8ZP_SCRATCH_W1),y
	bne  _fourthmiss
	iny
	lda  floats.floats_temp_var+4
	cmp  (P8ZP_SCRATCH_W1),y
	bne  _fifthmiss
	lda  #1
	rts

_firstmiss
	iny
_secondmiss
	iny
_thirdmiss
	iny
_fourthmiss
	iny
_fifthmiss
        iny
	dex
	bne  -
        lda  #0
        rts

	.pend
	; source: library:/prog8lib/shared_floats_functions.p8:5   asmsub print(float value @FAC1) clobbers(A,X,Y) {

print	.proc
	; source: library:/prog8lib/shared_floats_functions.p8:7   %asm {{
	    jsr  tostr
		ldy  #0
-		lda  (P8ZP_SCRATCH_W1),y
		beq  +
		jsr  cbm.CHROUT
		iny
		bne  -
+		rts
	.pend
	; source: library:/prog8lib/shared_floats_functions.p8:19   asmsub tostr(float value @FAC1) clobbers(X) -> str @AY {

tostr	.proc
	; source: library:/prog8lib/shared_floats_functions.p8:21   %asm {{
        jsr  FOUT
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		ldy  #0
		lda  (P8ZP_SCRATCH_W1),y
		cmp  #' '
		bne  +
		inc  P8ZP_SCRATCH_W1
		bne  +
		inc  P8ZP_SCRATCH_W1+1
+		lda  P8ZP_SCRATCH_W1
		ldy  P8ZP_SCRATCH_W1+1
		rts
	.pend
	; source: library:/prog8lib/shared_floats_functions.p8:54   sub sin(float angle) -> float {

sin	.proc
; statements
	; source: library:/prog8lib/shared_floats_functions.p8:55   %asm {{
        lda  #<angle
        ldy  #>angle
        jsr  MOVFM
        jmp  SIN
; variables
	.section BSS
	.send BSS

; non-zeropage variables without initialization value
	.section BSS
angle	.fill  5
	.send BSS
	.pend
	; source: library:/prog8lib/shared_floats_functions.p8:114   sub rad(float angle) -> float {

rad	.proc
; statements
	; source: library:/prog8lib/shared_floats_functions.p8:116   %asm {{
        lda  #<angle
        ldy  #>angle
        jsr  MOVFM
        lda  #<_pi_div_180
        ldy  #>_pi_div_180
        jmp  FMULT
_pi_div_180	.byte 123, 14, 250, 53, 18		; pi / 180
; variables
	.section BSS
	.send BSS

; non-zeropage variables without initialization value
	.section BSS
angle	.fill  5
	.send BSS
	.pend
	; source: library:/prog8lib/shared_floats_functions.p8:218   inline asmsub push(float value @FAC1) {
	; source: library:/prog8lib/shared_floats_functions.p8:224   inline asmsub pop() -> float @FAC1 {
	.pend

; ---- block: 'test_stack' ----
test_stack	.proc
	; source: library:/prog8lib/test_stack.p8:5   test_stack {


	; source: library:/prog8lib/test_stack.p8:6   %option no_symbol_prefixing, ignore_unused
	; source: library:/prog8lib/test_stack.p8:8   asmsub test() {

test	.proc
	; source: library:/prog8lib/test_stack.p8:9   %asm {{
	lda  #13
	jsr  txt.chrout
	lda  #'-'
	ldy  #12
-	jsr  txt.chrout
	dey
	bne  -
	lda  #13
	jsr  txt.chrout
	lda  #'s'
	jsr  txt.chrout
	lda  #'p'
	jsr  txt.chrout
	lda  #'='
	jsr  txt.chrout
	tsx
	txa
	jsr  txt.print_ub
	lda  #13
	jsr  txt.chrout
	lda  #'-'
	ldy  #12
-	jsr  txt.chrout
	dey
	bne  -
	lda  #13
	jmp  txt.chrout
	.pend
	.pend

; ---- block: 'math' ----
math	.proc
	; source: library:/prog8lib/math.p8:5   math {


	; source: library:/prog8lib/math.p8:6   %option no_symbol_prefixing, ignore_unused
	; source: library:/prog8lib/math.p8:8   %asminclude "library:math.asm"
; Internal Math library routines - always included by the compiler
; Generic machine independent 6502 code.
;
;  some more interesting routines can be found here:
;	http://6502org.wikidot.com/software-math
;	http://codebase64.org/doku.php?id=base:6502_6510_maths
;       https://github.com/TobyLobster/multiply_test
;       https://github.com/TobyLobster/sqrt_test


multiply_bytes	.proc
	; -- multiply 2 bytes A and Y, result as byte in A  (signed or unsigned)
	; https://github.com/TobyLobster/multiply_test/blob/main/tests/mult29.a

_multiplicand    = P8ZP_SCRATCH_B1
_multiplier      = P8ZP_SCRATCH_REG

    sty  _multiplicand
    lsr  a
    sta  _multiplier
    lda  #0
    ldx  #2
-
    bcc  +
    clc
    adc  _multiplicand
+
    ror  a
    ror  _multiplier
    bcc  +
    clc
    adc  _multiplicand
+
    ror  a
    ror  _multiplier

    bcc  +
    clc
    adc  _multiplicand
+
    ror  a
    ror  _multiplier
    bcc  +
    clc
    adc  _multiplicand
+
    ror  a
    ror  _multiplier
    dex
    bne  -
    ; tay       ; if you want 16 bits result in AY, enable this again
    lda  _multiplier
    rts
		.pend


multiply_words	.proc
	; -- multiply two 16-bit words into a 32-bit result  (signed and unsigned)
	;      input: A/Y = first 16-bit number, multiply_words.multiplier = second 16-bit number
	;      output: multiply_words.result, 4-bytes/32-bits product, LSB order (low-to-high)  low 16 bits also in AY.

	; NOTE: the result (which includes the multiplier parameter on entry) is a 4-byte array.
	;       this routine could be faster if we could stick that into zeropage,
	;       but there currently is no way to use 4 consecutive bytes in ZP (without disabling irq and saving/restoring them)...

; mult62.a
; from: https://github.com/TobyLobster/multiply_test/blob/main/tests/mult62.a
; based on Dr Jefyll, http://forum.6502.org/viewtopic.php?f=9&t=689&start=0#p19958
; - adjusted to use fixed zero page addresses
; - removed 'decrement to avoid clc' as this is slower on average
; - rearranged memory use to remove final memory copy and give LSB first order to result
; - removed temp zp storage bytes
; - unrolled the outer loop
; - unrolled the two inner loops once
;
; 16 bit x 16 bit unsigned multiply, 32 bit result
; Average cycles: ~442 ?
; 93 bytes

_multiplicand    = P8ZP_SCRATCH_W2   ; 2 bytes
multiplier      = result

; 16 bit x 16 bit unsigned multiply, 32 bit result
;
; On Entry:
;   (multiplier, multiplier+1): two byte multiplier, four bytes needed for result
;   (multiplicand, multiplicand+1): two byte multiplicand
; On Exit:
;   (result, result+1, result+2, result+3): product

    sta  _multiplicand
    sty  _multiplicand+1

    lda  #0              ;
    sta  result+2        ; 16 bits of zero in A, result+2
                        ;  Note:    First 8 shifts are  A -> result+2 -> result
                        ;           Final 8 shifts are  A -> result+2 -> result+1

    ; --- 1st byte ---
    ldy  #4              ; count for inner loop
    lsr  result

    ; inner loop (8 times)
_inner_loop
    ; first time
    bcc +
    tax                 ; retain A
    lda  result+2
    clc
    adc  _multiplicand
    sta  result+2
    txa                 ; recall A
    adc  _multiplicand+1

+
    ror  a                ; shift
    ror  result+2
    ror  result

    ; second time
    bcc +
    tax                 ; retain A
    lda  result+2
    clc
    adc  _multiplicand
    sta  result+2
    txa                 ; recall A
    adc  _multiplicand+1

+
    ror  a                 ; shift
    ror  result+2
    ror  result

    dey
    bne  _inner_loop      ; go back for 1 more shift?

    ; --- 2nd byte ---
    ldy  #4              ; count for inner loop
    lsr  result+1

    ; inner loop (8 times)
_inner_loop2
    ; first time
    bcc  +
    tax                 ; retain A
    lda  result+2
    clc
    adc  _multiplicand
    sta  result+2
    txa                 ; recall A
    adc  _multiplicand+1

+
    ror  a                ; shift
    ror  result+2
    ror  result+1

    ; second time
    bcc  +
    tax                 ; retain A
    lda  result+2
    clc
    adc  _multiplicand
    sta  result+2
    txa                 ; recall A
    adc  _multiplicand+1

+
    ror  a                ; shift
    ror  result+2
    ror  result+1
    dey
    bne  _inner_loop2     ; go back for 1 more shift?

    sta  result+3        ; ms byte of hi-word of result

    lda  result
    ldy  result+1
    rts

result		.byte  0,0,0,0

		.pend


divmod_b_asm	.proc
	; signed byte division: make everything positive and fix sign afterwards
		sta  P8ZP_SCRATCH_B1
		tya
		eor  P8ZP_SCRATCH_B1
		php			; save sign
		lda  P8ZP_SCRATCH_B1
		bpl  +
		eor  #$ff
		sec
		adc  #0			; make it positive
+		pha
		tya
		bpl  +
		eor  #$ff
		sec
		adc  #0			; make it positive
		tay
+		pla
		jsr  divmod_ub_asm
		sta  _remainder
		plp
		bpl  +
		tya
		eor  #$ff
		sec
		adc  #0			; negate result
		tay
+		rts
_remainder	.byte  0
		.pend


divmod_ub_asm	.proc
	; -- divide A by Y, result quotient in Y, remainder in A   (unsigned)
	;    division by zero will result in quotient = 255 and remainder = original number
		sty  P8ZP_SCRATCH_REG
		sta  P8ZP_SCRATCH_B1

		lda  #0
		ldx  #8
		asl  P8ZP_SCRATCH_B1
-		rol  a
		cmp  P8ZP_SCRATCH_REG
		bcc  +
		sbc  P8ZP_SCRATCH_REG
+		rol  P8ZP_SCRATCH_B1
		dex
		bne  -
		ldy  P8ZP_SCRATCH_B1
		rts
		.pend

divmod_w_asm	.proc
	; signed word division: make everything positive and fix sign afterwards
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		lda  P8ZP_SCRATCH_W1+1
		eor  P8ZP_SCRATCH_W2+1
		php			; save sign
		lda  P8ZP_SCRATCH_W1+1
		bpl  +
		lda  #0
		sec
		sbc  P8ZP_SCRATCH_W1
		sta  P8ZP_SCRATCH_W1
		lda  #0
		sbc  P8ZP_SCRATCH_W1+1
		sta  P8ZP_SCRATCH_W1+1
+		lda  P8ZP_SCRATCH_W2+1
		bpl  +
		lda  #0
		sec
		sbc  P8ZP_SCRATCH_W2
		sta  P8ZP_SCRATCH_W2
		lda  #0
		sbc  P8ZP_SCRATCH_W2+1
		sta  P8ZP_SCRATCH_W2+1
+		tay
		lda  P8ZP_SCRATCH_W2
		jsr  divmod_uw_asm
		plp			; restore sign
		bpl  +
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		lda  #0
		sec
		sbc  P8ZP_SCRATCH_W2
		pha
		lda  #0
		sbc  P8ZP_SCRATCH_W2+1
		tay
		pla
+		rts
		.pend

divmod_uw_asm	.proc
	; -- divide two unsigned words (16 bit each) into 16 bit results
	;    input:  P8ZP_SCRATCH_W1 in ZP: 16 bit number, A/Y: 16 bit divisor
	;    output: P8ZP_SCRATCH_W2 in ZP: 16 bit remainder, A/Y: 16 bit division result
	;    division by zero will result in quotient = 65535 and remainder = divident


dividend = P8ZP_SCRATCH_W1
remainder = P8ZP_SCRATCH_W2
result = dividend ;save memory by reusing divident to store the result

		sta  _divisor
		sty  _divisor+1
		lda  #0	        	;preset remainder to 0
		sta  remainder
		sta  remainder+1
		ldx  #16	        ;repeat for each bit: ...

-		asl  dividend		;dividend lb & hb*2, msb -> Carry
		rol  dividend+1
		rol  remainder		;remainder lb & hb * 2 + msb from carry
		rol  remainder+1
		lda  remainder
		sec
		sbc  _divisor		;substract divisor to see if it fits in
		tay	       		;lb result -> Y, for we may need it later
		lda  remainder+1
		sbc  _divisor+1
		bcc  +			;if carry=0 then divisor didn't fit in yet

		sta  remainder+1	;else save substraction result as new remainder,
		sty  remainder
		inc  result		;and INCrement result cause divisor fit in 1 times

+		dex
		bne  -

		lda  result
		ldy  result+1
		rts
_divisor	.word 0
		.pend


randword	.proc
	; -- 16 bit pseudo random number generator into AY
	;    default seed = $00c2 $1137
        ;    routine from https://codebase64.org/doku.php?id=base:x_abc_random_number_generator_8_16_bit
		inc x1
		clc
x1=*+1
		lda #$00	;x1
c1=*+1
		eor #$c2	;c1
a1=*+1
		eor #$11	;a1
		sta a1
b1=*+1
		adc #$37	;b1
		sta b1
		lsr a
		eor a1
		adc c1
		sta c1
		ldy b1
		rts
		.pend

randbyte = randword    ; -- 8 bit pseudo random number generator into A (by just reusing randword)


; ----------- optimized multiplications (in-place A (byte) and ?? (word)) : ---------
mul_byte_3	.proc
		; A = A + A*2
		sta  P8ZP_SCRATCH_REG
		asl  a
		clc
		adc  P8ZP_SCRATCH_REG
		rts
		.pend

mul_word_3	.proc
		; AY = AY*2 + AY
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		clc
		adc  P8ZP_SCRATCH_W2
		sta  P8ZP_SCRATCH_W1
		lda  P8ZP_SCRATCH_W1+1
		adc  P8ZP_SCRATCH_W2+1
		tay
		lda  P8ZP_SCRATCH_W1
		rts
		.pend


mul_byte_5	.proc
		; A = A*4 + A
		sta  P8ZP_SCRATCH_REG
		asl  a
		asl  a
		clc
		adc  P8ZP_SCRATCH_REG
		rts
		.pend

mul_word_5	.proc
		; AY = AY*4 + AY
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		clc
		adc  P8ZP_SCRATCH_W2
		sta  P8ZP_SCRATCH_W1
		lda  P8ZP_SCRATCH_W1+1
		adc  P8ZP_SCRATCH_W2+1
		tay
		lda  P8ZP_SCRATCH_W1
		rts
		.pend


mul_byte_6	.proc
		; A = (A*2 + A)*2
		sta  P8ZP_SCRATCH_REG
		asl  a
                clc
                adc  P8ZP_SCRATCH_REG
		asl  a
		rts
		.pend

mul_word_6	.proc
		; AY = (AY*2 + AY)*2
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		clc
		adc  P8ZP_SCRATCH_W2
		sta  P8ZP_SCRATCH_W1
		tay
		lda  P8ZP_SCRATCH_W1+1
		adc  P8ZP_SCRATCH_W2+1
		sta  P8ZP_SCRATCH_W1+1
		tya
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		ldy  P8ZP_SCRATCH_W1+1
		rts
		.pend

mul_byte_7	.proc
		; A = A*8 - A
		sta  P8ZP_SCRATCH_REG
		asl  a
		asl  a
		asl  a
		sec
		sbc  P8ZP_SCRATCH_REG
		rts
		.pend

mul_word_7	.proc
		; AY = AY*8 - AY
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		sec
		sbc  P8ZP_SCRATCH_W2
		sta  P8ZP_SCRATCH_W1
		lda  P8ZP_SCRATCH_W1+1
		sbc  P8ZP_SCRATCH_W2+1
		tay
		lda  P8ZP_SCRATCH_W1
		rts
		.pend

mul_byte_9	.proc
		; A = A*8 + A
		sta  P8ZP_SCRATCH_REG
		asl  a
		asl  a
		asl  a
		clc
		adc  P8ZP_SCRATCH_REG
		rts
		.pend

mul_word_9	.proc
		; AY = AY*8 + AY
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		clc
		adc  P8ZP_SCRATCH_W2
		sta  P8ZP_SCRATCH_W1
		lda  P8ZP_SCRATCH_W1+1
		adc  P8ZP_SCRATCH_W2+1
		tay
		lda  P8ZP_SCRATCH_W1
		rts
		rts
		.pend

mul_byte_10	.proc
		; A=(A*4 + A)*2
		sta  P8ZP_SCRATCH_REG
		asl  a
		asl  a
		clc
		adc  P8ZP_SCRATCH_REG
		asl  a
		rts
		.pend

mul_word_10	.proc
		; AY=(AY*4 + AY)*2
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		clc
		adc  P8ZP_SCRATCH_W2
		sta  P8ZP_SCRATCH_W1
		lda  P8ZP_SCRATCH_W1+1
		adc  P8ZP_SCRATCH_W2+1
		sta  P8ZP_SCRATCH_W1+1
		lda  P8ZP_SCRATCH_W1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		ldy  P8ZP_SCRATCH_W1+1
		rts
		.pend

mul_byte_11	.proc
		; A=(A*2 + A)*4 - A
		sta  P8ZP_SCRATCH_REG
		asl  a
		clc
		adc  P8ZP_SCRATCH_REG
		asl  a
		asl  a
		sec
		sbc  P8ZP_SCRATCH_REG
		rts
		.pend

; mul_word_11 is skipped (too much code)

mul_byte_12	.proc
		; A=(A*2 + A)*4
		sta  P8ZP_SCRATCH_REG
		asl  a
		clc
		adc  P8ZP_SCRATCH_REG
		asl  a
		asl  a
		rts
		.pend

mul_word_12	.proc
		; AY=(AY*2 + AY)*4
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		clc
		adc  P8ZP_SCRATCH_W2
		sta  P8ZP_SCRATCH_W1
		lda  P8ZP_SCRATCH_W1+1
		adc  P8ZP_SCRATCH_W2+1
		sta  P8ZP_SCRATCH_W1+1
		lda  P8ZP_SCRATCH_W1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		ldy  P8ZP_SCRATCH_W1+1
		rts
		.pend

mul_byte_13	.proc
		; A=(A*2 + A)*4 + A
		sta  P8ZP_SCRATCH_REG
		asl  a
                clc
		adc  P8ZP_SCRATCH_REG
		asl  a
		asl  a
                clc
		adc  P8ZP_SCRATCH_REG
		rts
		.pend

; mul_word_13 is skipped (too much code)

mul_byte_14	.proc
		; A=(A*8 - A)*2
		sta  P8ZP_SCRATCH_REG
		asl  a
		asl  a
		asl  a
                sec
		sbc  P8ZP_SCRATCH_REG
                asl  a
		rts
		.pend

; mul_word_14 is skipped (too much code)

mul_byte_15	.proc
		; A=A*16 - A
		sta  P8ZP_SCRATCH_REG
		asl  a
		asl  a
		asl  a
		asl  a
		sec
		sbc  P8ZP_SCRATCH_REG
		rts
		.pend

mul_word_15	.proc
		; AY = AY * 16 - AY
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		sec
		sbc  P8ZP_SCRATCH_W2
		sta  P8ZP_SCRATCH_W1
		lda  P8ZP_SCRATCH_W1+1
		sbc  P8ZP_SCRATCH_W2+1
		tay
		lda  P8ZP_SCRATCH_W1
		rts
		.pend

mul_byte_20	.proc
		; A=(A*4 + A)*4
		sta  P8ZP_SCRATCH_REG
		asl  a
		asl  a
		clc
		adc  P8ZP_SCRATCH_REG
		asl  a
		asl  a
		rts
		.pend

mul_word_20	.proc
		; AY = AY * 10 * 2
		jsr  mul_word_10
		sty  P8ZP_SCRATCH_REG
		asl  a
		rol  P8ZP_SCRATCH_REG
		ldy  P8ZP_SCRATCH_REG
		rts
		.pend

mul_byte_25	.proc
		; A=(A*2 + A)*8 + A
		sta  P8ZP_SCRATCH_REG
		asl  a
		clc
		adc  P8ZP_SCRATCH_REG
		asl  a
		asl  a
		asl  a
		clc
		adc  P8ZP_SCRATCH_REG
		rts
		.pend

mul_word_25	.proc
		; AY = (AY*2 + AY) *8 + AY
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		clc
		adc  P8ZP_SCRATCH_W2
		sta  P8ZP_SCRATCH_W1
		lda  P8ZP_SCRATCH_W1+1
		adc  P8ZP_SCRATCH_W2+1
		sta  P8ZP_SCRATCH_W1+1
		lda  P8ZP_SCRATCH_W1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		clc
		adc  P8ZP_SCRATCH_W2
		sta  P8ZP_SCRATCH_W1
		lda  P8ZP_SCRATCH_W1+1
		adc  P8ZP_SCRATCH_W2+1
		tay
		lda  P8ZP_SCRATCH_W1
		rts
		.pend

mul_byte_40	.proc
		and  #7
		tay
		lda  _forties,y
		rts
_forties	.byte  0*40, 1*40, 2*40, 3*40, 4*40, 5*40, 6*40, 7*40 & 255
		.pend

mul_word_40	.proc
		; AY = (AY*4 + AY)*8
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		asl  a
		rol  P8ZP_SCRATCH_W1+1
		clc
		adc  P8ZP_SCRATCH_W2
		sta  P8ZP_SCRATCH_W1
		lda  P8ZP_SCRATCH_W1+1
		adc  P8ZP_SCRATCH_W2+1
		asl  P8ZP_SCRATCH_W1
		rol  a
		asl  P8ZP_SCRATCH_W1
		rol  a
		asl  P8ZP_SCRATCH_W1
		rol  a
		tay
		lda  P8ZP_SCRATCH_W1
		rts
		.pend

mul_byte_50	.proc
		and  #7
		tay
		lda  _fifties, y
		rts
_fifties	.byte  0*50, 1*50, 2*50, 3*50, 4*50, 5*50, 6*50 & 255, 7*50 & 255
		.pend

mul_word_50	.proc
		; AY = AY * 25 * 2
		jsr  mul_word_25
		sty  P8ZP_SCRATCH_REG
		asl  a
		rol  P8ZP_SCRATCH_REG
		ldy  P8ZP_SCRATCH_REG
		rts
		.pend

mul_byte_80	.proc
		and  #3
		tay
		lda  _eighties, y
		rts
_eighties	.byte  0*80, 1*80, 2*80, 3*80
		.pend

mul_word_80	.proc
		; AY = AY * 40 * 2
		jsr  mul_word_40
		sty  P8ZP_SCRATCH_REG
		asl  a
		rol  P8ZP_SCRATCH_REG
		ldy  P8ZP_SCRATCH_REG
		rts
		.pend

mul_byte_100	.proc
		and  #3
		tay
		lda  _hundreds, y
		rts
_hundreds	.byte  0*100, 1*100, 2*100, 3*100 & 255
		.pend

mul_word_100	.proc
		; AY = AY * 25 * 4
		jsr  mul_word_25
		sty  P8ZP_SCRATCH_REG
		asl  a
		rol  P8ZP_SCRATCH_REG
		asl  a
		rol  P8ZP_SCRATCH_REG
		ldy  P8ZP_SCRATCH_REG
		rts
		.pend

mul_word_320	.proc
		; AY = A * 256 + A * 64	 (msb in Y doesn't matter)
		sta  P8ZP_SCRATCH_B1
		ldy  #0
		sty  P8ZP_SCRATCH_REG
		asl  a
		rol  P8ZP_SCRATCH_REG
		asl  a
		rol  P8ZP_SCRATCH_REG
		asl  a
		rol  P8ZP_SCRATCH_REG
		asl  a
		rol  P8ZP_SCRATCH_REG
		asl  a
		rol  P8ZP_SCRATCH_REG
		asl  a
		rol  P8ZP_SCRATCH_REG
		pha
		clc
		lda  P8ZP_SCRATCH_B1
		adc  P8ZP_SCRATCH_REG
		tay
		pla
		rts
		.pend

mul_word_640	.proc
		; AY = (A * 2 * 320) (msb in Y doesn't matter)
		asl  a
		jmp  mul_word_320
		.pend


; ----------- end optimized multiplications -----------


; support for bit shifting that is too large to be unrolled:

lsr_byte_A	.proc
		; -- lsr signed byte in A times the value in Y
		cpy  #0
		beq  +
		cmp  #0
		bpl  lsr_ubyte_A
-       	sec
		ror  a
		dey
		bne  -
+		rts
		.pend

lsr_ubyte_A	.proc
		; -- lsr unsigned byte in A times the value in Y
		cpy  #0
		beq  +
-		lsr  a
		dey
		bne  -
+		rts
		.pend

asl_byte_A      .proc
		; -- asl any byte in A times the value in Y
		cpy  #0
		beq  +
-		asl  a
		dey
		bne  -
+		rts
		.pend


lsr_word_AY     .proc
		; -- lsr signed word in AY times the value in X
		cpx  #0
		beq  +
		cpy  #0
		bpl  lsr_uword_AY
		sty  P8ZP_SCRATCH_B1
-		sec
		ror  P8ZP_SCRATCH_B1
		ror  a
		dex
		bne  -
		ldy  P8ZP_SCRATCH_B1
+		rts
		.pend

lsr_uword_AY    .proc
		; -- lsr unsigned word in AY times the value in X
		cpx  #0
		beq  +
		sty  P8ZP_SCRATCH_B1
-		lsr  P8ZP_SCRATCH_B1
		ror  a
		dex
		bne  -
		ldy  P8ZP_SCRATCH_B1
+		rts
		.pend

asl_word_AY     .proc
		; -- asl any word in AY times the value in X
		cpx  #0
		beq  +
		sty  P8ZP_SCRATCH_B1
-               asl  a
		rol  P8ZP_SCRATCH_B1
		dex
		bne  -
		ldy  P8ZP_SCRATCH_B1
+		rts
		.pend


square          .proc
; -- calculate square of signed word (actually -255..255) in AY, result in AY
; routine by Lee Davison, source: http://6502.org/source/integers/square.htm
; using this routine is a lot faster as doing a regular multiplication (for words)
;
; Calculates the 16 bit unsigned integer square of the signed 16 bit integer in
; Numberl/Numberh.  The result is always in the range 0 to 65025 and is held in
; Squarel/Squareh
;
; The maximum input range is only +/-255 and no checking is done to ensure that
; this is so.
;
; This routine is useful if you are trying to draw circles as for any circle
;
; x^2+y^2=r^2 where x and y are the co-ordinates of any point on the circle and
; r is the circle radius

numberl = P8ZP_SCRATCH_W1       ; number to square low byte
numberh = P8ZP_SCRATCH_W1+1     ; number to square high byte
squarel = P8ZP_SCRATCH_W2       ; square low byte
squareh = P8ZP_SCRATCH_W2+1     ; square high byte
tempsq = P8ZP_SCRATCH_B1        ; temp byte for intermediate result

	sta  numberl
	sty  numberh

        lda     #$00        ; clear a
        sta     squarel     ; clear square low byte
                            ; (no need to clear the high byte, it gets shifted out)
        lda	numberl     ; get number low byte
	ldx	numberh     ; get number high  byte
	bpl	_nonneg      ; if +ve don't negate it
                            ; else do a two's complement
	eor	#$ff        ; invert
        sec	            ; +1
	adc	#$00        ; and add it

_nonneg:
	sta	tempsq      ; save abs(number)
	ldx	#$08        ; set bit count

_nextr2bit:
	asl	squarel     ; low byte *2
	rol	squareh     ; high byte *2+carry from low
	asl	a           ; shift number byte
	bcc	_nosqadd     ; don't do add if c = 0
	tay                 ; save a
	clc                 ; clear carry for add
	lda	tempsq      ; get number
	adc	squarel     ; add number^2 low byte
	sta	squarel     ; save number^2 low byte
	lda	#$00        ; clear a
	adc	squareh     ; add number^2 high byte
	sta	squareh     ; save number^2 high byte
	tya                 ; get a back

_nosqadd:
	dex                 ; decrement bit count
	bne	_nextr2bit   ; go do next bit

	lda  squarel
	ldy  squareh
	rts

		.pend
	; source: library:/prog8lib/math.p8:10   asmsub sin8u(ubyte angle @A) clobbers(Y) -> ubyte @A {

sin8u	.proc
	; source: library:/prog8lib/math.p8:11   %asm {{
		tay
		lda  _sinecos8u,y
		rts
_sinecos8u	.byte  trunc(128.0 + 127.5 * sin(range(256+64) * rad(360.0/256.0)))
	.pend
	; source: library:/prog8lib/math.p8:19   asmsub cos8u(ubyte angle @A) clobbers(Y) -> ubyte @A {

cos8u	.proc
	; source: library:/prog8lib/math.p8:20   %asm {{
		tay
		lda  sin8u._sinecos8u+64,y
		rts
	.pend
	; source: library:/prog8lib/math.p8:27   asmsub sin8(ubyte angle @A) clobbers(Y) -> byte @A {

sin8	.proc
	; source: library:/prog8lib/math.p8:28   %asm {{
		tay
		lda  _sinecos8,y
		rts
_sinecos8	.char  trunc(127.0 * sin(range(256+64) * rad(360.0/256.0)))
	.pend
	; source: library:/prog8lib/math.p8:36   asmsub cos8(ubyte angle @A) clobbers(Y) -> byte @A {

cos8	.proc
	; source: library:/prog8lib/math.p8:37   %asm {{
		tay
		lda  sin8._sinecos8+64,y
		rts
	.pend
	; source: library:/prog8lib/math.p8:44   asmsub sinr8u(ubyte radians @A) clobbers(Y) -> ubyte @A {

sinr8u	.proc
	; source: library:/prog8lib/math.p8:45   %asm {{
		tay
		lda  _sinecosR8u,y
		rts
_sinecosR8u	.byte  trunc(128.0 + 127.5 * sin(range(180+45) * rad(360.0/180.0)))
	.pend
	; source: library:/prog8lib/math.p8:53   asmsub cosr8u(ubyte radians @A) clobbers(Y) -> ubyte @A {

cosr8u	.proc
	; source: library:/prog8lib/math.p8:54   %asm {{
		tay
		lda  sinr8u._sinecosR8u+45,y
		rts
	.pend
	; source: library:/prog8lib/math.p8:61   asmsub sinr8(ubyte radians @A) clobbers(Y) -> byte @A {

sinr8	.proc
	; source: library:/prog8lib/math.p8:62   %asm {{
		tay
		lda  _sinecosR8,y
		rts
_sinecosR8	.char  trunc(127.0 * sin(range(180+45) * rad(360.0/180.0)))
	.pend
	; source: library:/prog8lib/math.p8:70   asmsub cosr8(ubyte radians @A) clobbers(Y) -> byte @A {

cosr8	.proc
	; source: library:/prog8lib/math.p8:71   %asm {{
		tay
		lda  sinr8._sinecosR8+45,y
		rts
	.pend
	; source: library:/prog8lib/math.p8:78   asmsub rnd() clobbers(Y) -> ubyte @A {

rnd	.proc
	; source: library:/prog8lib/math.p8:79   %asm {{
            jmp  math.randbyte
	.pend
	; source: library:/prog8lib/math.p8:84   asmsub rndw() -> uword @AY {

rndw	.proc
	; source: library:/prog8lib/math.p8:85   %asm {{
            jmp  math.randword
	.pend
	; source: library:/prog8lib/math.p8:108   asmsub rndseed(uword seed1 @AY, uword seed2 @R0) clobbers(A,Y) {

rndseed	.proc
	; source: library:/prog8lib/math.p8:110   %asm {{
            sta  math.randword.x1
            sty  math.randword.c1
            lda  cx16.r0L
            sta  math.randword.a1
            lda  cx16.r0H
            sta  math.randword.b1
            rts
	.pend
	; source: library:/prog8lib/math.p8:121   asmsub log2(ubyte value @A) -> ubyte @Y {

log2	.proc
	; source: library:/prog8lib/math.p8:122   %asm {{
            sta  P8ZP_SCRATCH_B1
            lda  #$80
            ldy  #7
-           bit  P8ZP_SCRATCH_B1
            beq  +
            rts
+           dey
            bne  +
            rts
+           lsr  a
            bne  -
	.pend
	; source: library:/prog8lib/math.p8:137   asmsub log2w(uword value @AY) -> ubyte @Y {

log2w	.proc
	; source: library:/prog8lib/math.p8:138   %asm {{
            sta  P8ZP_SCRATCH_W1
            sty  P8ZP_SCRATCH_W1+1
            lda  #<$8000
            sta  cx16.r0
            lda  #>$8000
            sta  cx16.r0+1
            ldy  #15
-           lda  P8ZP_SCRATCH_W1
            and  cx16.r0
            sta  P8ZP_SCRATCH_B1
            lda  P8ZP_SCRATCH_W1+1
            and  cx16.r0+1
            ora  P8ZP_SCRATCH_B1
            beq  +
            rts
+           dey
            bne  +
            rts
+           lsr  cx16.r0+1
            ror  cx16.r0
            jmp  -
	.pend
	; source: library:/prog8lib/math.p8:163   asmsub mul16_last_upper() -> uword @AY {

mul16_last_upper	.proc
	; source: library:/prog8lib/math.p8:171   %asm {{
            lda  multiply_words.result+2
            ldy  multiply_words.result+3
            rts
	.pend
	; source: library:/prog8lib/math.p8:212   asmsub direction_qd(ubyte quadrant @A, ubyte xdelta @X, ubyte ydelta @Y) -> ubyte @A {

direction_qd	.proc
	; source: library:/prog8lib/math.p8:220   %asm {{
x_delta = cx16.r0L
y_delta = cx16.r1L
quadrant = cx16.r2L
half_value = cx16.r3L
region_number = cx16.r4L
small = cx16.r5L
large = cx16.r5H

  sta quadrant
  sty y_delta
  stx x_delta
  cpx y_delta
  bcs _XGreaterOrEqualY

_XLessY:
  lda #16
  sta region_number
  stx small
  sty large
  bne _DetermineRegion

_XGreaterOrEqualY:
  lda #0
  sta region_number
  stx large
  sty small

_DetermineRegion:
  ; set A = small * 2.5
  lda small
  lsr a
  sta half_value
  lda small
  asl a
  bcs _SmallerQuotient
  clc
  adc half_value
  bcs _SmallerQuotient
  cmp large
  bcc _LargerQuotient

; S * 2.5 > L
_SmallerQuotient:
  ; set A = S * 1.25
  lsr half_value
  lda small
  clc
  adc half_value
  cmp large
  bcc _Region1 ; if S * 1.25 < L then goto Region1 (L / S > 1.25)
  bcs _Region0 ;                                   (L / S < 1.25)

; S * 2.5 < L
_LargerQuotient:
  ; set A = S * 7.5
  lda small
  asl a
  asl a
  asl a
  bcs _Region2
  sec
  sbc half_value
  cmp large
  bcc _Region3 ; if S * 7.5 < L then goto Region3 (L / S > 7.5)
  jmp _Region2 ;                                  (L / S < 7.5)

_Region0:
  ; L / S < 1.25. d=3,9,15,21
  jmp _LookupResult

_Region1:
  ; 1.25 < L / S < 2.5. d=2,4,8,10,14,16,20,22
  lda region_number
  clc
  adc #4
  sta region_number
  bpl _LookupResult

_Region2:
  ; 2.5 < L / S < 7.5. d=1,5,7,11,13,17,19,23
  lda region_number
  clc
  adc #8
  sta region_number
  bpl _LookupResult

_Region3:
  ; 7.5 < L / S. d=0,6,12,18
  lda region_number
  clc
  adc #12
  sta region_number

_LookupResult:
  lda quadrant
  clc
  adc region_number
  tax
  lda _quadrant_region_to_direction,x
  rts

_quadrant_region_to_direction:
  .byte  9, 3,15,21
  .byte 10, 2,14,22
  .byte 11, 1,13,23
  .byte 12, 0,12, 0
  .byte  9, 3,15,21
  .byte  8, 4,16,20
  .byte  7, 5,17,19
  .byte  6, 6,18,18
	.pend
	; source: library:/prog8lib/math.p8:335   asmsub atan2(ubyte x1 @R0, ubyte y1 @R1, ubyte x2 @R2, ubyte y2 @R3) -> ubyte @A {

atan2	.proc
	; source: library:/prog8lib/math.p8:341   %asm {{
x1 = cx16.r0L
y1 = cx16.r1L
x2 = cx16.r2L
y2 = cx16.r3L
octant = cx16.r4L			;; temporary zeropage variable

		lda x1
		sec
		sbc x2
		bcs *+4
		eor #$ff
		tax
		rol octant

		lda y1
		sec
		sbc y2
		bcs *+4
		eor #$ff
		tay
		rol octant

		lda log2_tab,x
		sec
		sbc log2_tab,y
		bcc *+4
		eor #$ff
		tax

		lda octant
		rol a
		and #%111
		tay

		lda atan_tab,x
		eor octant_adjust,y
		rts

octant_adjust
		.byte %00111111		;; x+,y+,|x|>|y|
		.byte %00000000		;; x+,y+,|x|<|y|
		.byte %11000000		;; x+,y-,|x|>|y|
		.byte %11111111		;; x+,y-,|x|<|y|
		.byte %01000000		;; x-,y+,|x|>|y|
		.byte %01111111		;; x-,y+,|x|<|y|
		.byte %10111111		;; x-,y-,|x|>|y|
		.byte %10000000		;; x-,y-,|x|<|y|


		;;;;;;;; atan(2^(x/32))*128/pi ;;;;;;;;

atan_tab
		.byte $00,$00,$00,$00,$00,$00,$00,$00
		.byte $00,$00,$00,$00,$00,$00,$00,$00
		.byte $00,$00,$00,$00,$00,$00,$00,$00
		.byte $00,$00,$00,$00,$00,$00,$00,$00
		.byte $00,$00,$00,$00,$00,$00,$00,$00
		.byte $00,$00,$00,$00,$00,$00,$00,$00
		.byte $00,$00,$00,$00,$00,$00,$00,$00
		.byte $00,$00,$00,$00,$00,$00,$00,$00
		.byte $00,$00,$00,$00,$00,$00,$00,$00
		.byte $00,$00,$00,$00,$00,$00,$00,$00
		.byte $00,$00,$00,$00,$00,$01,$01,$01
		.byte $01,$01,$01,$01,$01,$01,$01,$01
		.byte $01,$01,$01,$01,$01,$01,$01,$01
		.byte $01,$01,$01,$01,$01,$01,$01,$01
		.byte $01,$01,$01,$01,$01,$02,$02,$02
		.byte $02,$02,$02,$02,$02,$02,$02,$02
		.byte $02,$02,$02,$02,$02,$02,$02,$02
		.byte $03,$03,$03,$03,$03,$03,$03,$03
		.byte $03,$03,$03,$03,$03,$04,$04,$04
		.byte $04,$04,$04,$04,$04,$04,$04,$04
		.byte $05,$05,$05,$05,$05,$05,$05,$05
		.byte $06,$06,$06,$06,$06,$06,$06,$06
		.byte $07,$07,$07,$07,$07,$07,$08,$08
		.byte $08,$08,$08,$08,$09,$09,$09,$09
		.byte $09,$0a,$0a,$0a,$0a,$0b,$0b,$0b
		.byte $0b,$0c,$0c,$0c,$0c,$0d,$0d,$0d
		.byte $0d,$0e,$0e,$0e,$0e,$0f,$0f,$0f
		.byte $10,$10,$10,$11,$11,$11,$12,$12
		.byte $12,$13,$13,$13,$14,$14,$15,$15
		.byte $15,$16,$16,$17,$17,$17,$18,$18
		.byte $19,$19,$19,$1a,$1a,$1b,$1b,$1c
		.byte $1c,$1c,$1d,$1d,$1e,$1e,$1f,$1f


		;;;;;;;; log2(x)*32 ;;;;;;;;

log2_tab
		.byte $00,$00,$20,$32,$40,$4a,$52,$59
		.byte $60,$65,$6a,$6e,$72,$76,$79,$7d
		.byte $80,$82,$85,$87,$8a,$8c,$8e,$90
		.byte $92,$94,$96,$98,$99,$9b,$9d,$9e
		.byte $a0,$a1,$a2,$a4,$a5,$a6,$a7,$a9
		.byte $aa,$ab,$ac,$ad,$ae,$af,$b0,$b1
		.byte $b2,$b3,$b4,$b5,$b6,$b7,$b8,$b9
		.byte $b9,$ba,$bb,$bc,$bd,$bd,$be,$bf
		.byte $c0,$c0,$c1,$c2,$c2,$c3,$c4,$c4
		.byte $c5,$c6,$c6,$c7,$c7,$c8,$c9,$c9
		.byte $ca,$ca,$cb,$cc,$cc,$cd,$cd,$ce
		.byte $ce,$cf,$cf,$d0,$d0,$d1,$d1,$d2
		.byte $d2,$d3,$d3,$d4,$d4,$d5,$d5,$d5
		.byte $d6,$d6,$d7,$d7,$d8,$d8,$d9,$d9
		.byte $d9,$da,$da,$db,$db,$db,$dc,$dc
		.byte $dd,$dd,$dd,$de,$de,$de,$df,$df
		.byte $df,$e0,$e0,$e1,$e1,$e1,$e2,$e2
		.byte $e2,$e3,$e3,$e3,$e4,$e4,$e4,$e5
		.byte $e5,$e5,$e6,$e6,$e6,$e7,$e7,$e7
		.byte $e7,$e8,$e8,$e8,$e9,$e9,$e9,$ea
		.byte $ea,$ea,$ea,$eb,$eb,$eb,$ec,$ec
		.byte $ec,$ec,$ed,$ed,$ed,$ed,$ee,$ee
		.byte $ee,$ee,$ef,$ef,$ef,$ef,$f0,$f0
		.byte $f0,$f1,$f1,$f1,$f1,$f1,$f2,$f2
		.byte $f2,$f2,$f3,$f3,$f3,$f3,$f4,$f4
		.byte $f4,$f4,$f5,$f5,$f5,$f5,$f5,$f6
		.byte $f6,$f6,$f6,$f7,$f7,$f7,$f7,$f7
		.byte $f8,$f8,$f8,$f8,$f9,$f9,$f9,$f9
		.byte $f9,$fa,$fa,$fa,$fa,$fa,$fb,$fb
		.byte $fb,$fb,$fb,$fc,$fc,$fc,$fc,$fc
		.byte $fd,$fd,$fd,$fd,$fd,$fd,$fe,$fe
		.byte $fe,$fe,$fe,$ff,$ff,$ff,$ff,$ff
	.pend
	; source: library:/prog8lib/math.p8:468   asmsub diff(ubyte v1 @A, ubyte v2 @Y) -> ubyte @A {

diff	.proc
	; source: library:/prog8lib/math.p8:470   %asm {{
            sty  P8ZP_SCRATCH_REG
            sec
            sbc  P8ZP_SCRATCH_REG
            bcs  +
            eor  #255
            inc  a
+           rts
	.pend
	; source: library:/prog8lib/math.p8:481   asmsub diffw(uword w1 @R0, uword w2 @AY) -> uword @AY {

diffw	.proc
	; source: library:/prog8lib/math.p8:483   %asm {{
            sec
            sbc  cx16.r0L
            sta  cx16.r0L
            tya
            sbc  cx16.r0H
            sta  cx16.r0H
            bcs  +
            eor  #255
            sta  cx16.r0H
            lda  cx16.r0L
            eor  #255
            inc  a
            sta  cx16.r0L
            bne  +
            inc  cx16.r0H
+           lda  cx16.r0L
            ldy  cx16.r0H
            rts
	.pend
	.pend

; ---- block: 'prog8_lib' ----
prog8_lib	.proc
	; source: library:/prog8lib/prog8_lib.p8:3   prog8_lib {


	; source: library:/prog8lib/prog8_lib.p8:4   %option no_symbol_prefixing, ignore_unused
	; source: library:/prog8lib/prog8_lib.p8:6   %asminclude "library:prog8_lib.asm"
; Internal library routines - always included by the compiler
; Generic machine independent 6502 code.


orig_stackpointer	.byte  0	; stores the Stack pointer register at program start


read_byte_from_address_in_AY_into_A	.proc
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		ldy  #0
		lda  (P8ZP_SCRATCH_W2),y
		rts
		.pend


write_byte_X_to_address_in_AY	.proc
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		ldy  #0
		txa
		sta  (P8ZP_SCRATCH_W2),y
		rts
		.pend


reg_less_uw	.proc
		;  AY < P8ZP_SCRATCH_W2?
		cpy  P8ZP_SCRATCH_W2+1
		bcc  _true
		bne  _false
		cmp  P8ZP_SCRATCH_W2
		bcc  _true
_false		lda  #0
		rts
_true		lda  #1
		rts
		.pend

reg_less_w	.proc
		; -- AY < P8ZP_SCRATCH_W2?
		cmp  P8ZP_SCRATCH_W2
		tya
		sbc  P8ZP_SCRATCH_W2+1
		bvc  +
		eor  #$80
+		bmi  _true
		lda  #0
		rts
_true		lda  #1
		rts
		.pend

reg_lesseq_uw	.proc
		; AY <= P8ZP_SCRATCH_W2?
		cpy  P8ZP_SCRATCH_W2+1
		beq  +
		bcc  _true
		lda  #0
		rts
+		cmp  P8ZP_SCRATCH_W2
		bcc  _true
		beq  _true
		lda  #0
		rts
_true		lda  #1
		rts
		.pend

reg_lesseq_w	.proc
		; -- P8ZP_SCRATCH_W2 <= AY ?   (note: order different from other routines)
		cmp  P8ZP_SCRATCH_W2
		tya
		sbc  P8ZP_SCRATCH_W2+1
		bvc  +
		eor  #$80
+		bpl  +
		lda  #0
		rts
+		lda  #1
		rts
		.pend


memcopy16_up	.proc
	; -- copy memory UP from (P8ZP_SCRATCH_W1) to (P8ZP_SCRATCH_W2) of length X/Y (16-bit, X=lo, Y=hi)
	;    clobbers register A,X,Y
		source = P8ZP_SCRATCH_W1
		dest = P8ZP_SCRATCH_W2
		length = P8ZP_SCRATCH_B1   ; (and SCRATCH_ZPREG)

		stx  length
		sty  length+1

		ldx  length             ; move low byte of length into X
		bne  +                  ; jump to start if X > 0
		dec  length             ; subtract 1 from length
+		ldy  #0                 ; set Y to 0
-		lda  (source),y         ; set A to whatever (source) points to offset by Y
		sta  (dest),y           ; move A to location pointed to by (dest) offset by Y
		iny                     ; increment Y
		bne  +                  ; if Y<>0 then (rolled over) then still moving bytes
		inc  source+1           ; increment hi byte of source
		inc  dest+1             ; increment hi byte of dest
+		dex                     ; decrement X (lo byte counter)
		bne  -                  ; if X<>0 then move another byte
		dec  length             ; we've moved 255 bytes, dec length
		bpl  -                  ; if length is still positive go back and move more
		rts                     ; done
		.pend


memset          .proc
	; -- fill memory from (P8ZP_SCRATCH_W1), length XY, with value in A.
	;    clobbers X, Y
		stx  P8ZP_SCRATCH_B1
		sty  _save_reg
		ldy  #0
		ldx  _save_reg
		beq  _lastpage

_fullpage	sta  (P8ZP_SCRATCH_W1),y
		iny
		bne  _fullpage
		inc  P8ZP_SCRATCH_W1+1          ; next page
		dex
		bne  _fullpage

_lastpage	ldy  P8ZP_SCRATCH_B1
		beq  +
-         	dey
		sta  (P8ZP_SCRATCH_W1),y
		bne  -

+           	rts
_save_reg	.byte  0
		.pend


memsetw		.proc
	; -- fill memory from (P8ZP_SCRATCH_W1) number of words in P8ZP_SCRATCH_W2, with word value in AY.
	;    clobbers A, X, Y
		sta  _mod1+1                    ; self-modify
		sty  _mod1b+1                   ; self-modify
		sta  _mod2+1                    ; self-modify
		sty  _mod2b+1                   ; self-modify
		ldx  P8ZP_SCRATCH_W1
		stx  P8ZP_SCRATCH_B1
		ldx  P8ZP_SCRATCH_W1+1
		inx
		stx  P8ZP_SCRATCH_REG                ; second page

		ldy  #0
		ldx  P8ZP_SCRATCH_W2+1
		beq  _lastpage

_fullpage
_mod1           lda  #0                         ; self-modified
		sta  (P8ZP_SCRATCH_W1),y        ; first page
		sta  (P8ZP_SCRATCH_B1),y            ; second page
		iny
_mod1b		lda  #0                         ; self-modified
		sta  (P8ZP_SCRATCH_W1),y        ; first page
		sta  (P8ZP_SCRATCH_B1),y            ; second page
		iny
		bne  _fullpage
		inc  P8ZP_SCRATCH_W1+1          ; next page pair
		inc  P8ZP_SCRATCH_W1+1          ; next page pair
		inc  P8ZP_SCRATCH_B1+1              ; next page pair
		inc  P8ZP_SCRATCH_B1+1              ; next page pair
		dex
		bne  _fullpage

_lastpage	ldx  P8ZP_SCRATCH_W2
		beq  _done

		ldy  #0
-
_mod2           lda  #0                         ; self-modified
                sta  (P8ZP_SCRATCH_W1), y
		inc  P8ZP_SCRATCH_W1
		bne  _mod2b
		inc  P8ZP_SCRATCH_W1+1
_mod2b          lda  #0                         ; self-modified
		sta  (P8ZP_SCRATCH_W1), y
		inc  P8ZP_SCRATCH_W1
		bne  +
		inc  P8ZP_SCRATCH_W1+1
+               dex
		bne  -
_done		rts
		.pend



ror2_mem_ub	.proc
		; -- in-place 8-bit ror of byte at memory location in AY
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		ldy  #0
		lda  (P8ZP_SCRATCH_W1),y
		lsr  a
		bcc  +
		ora  #$80
+		sta  (P8ZP_SCRATCH_W1),y
		rts
		.pend

rol2_mem_ub	.proc
		; -- in-place 8-bit rol of byte at memory location in AY
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		ldy  #0
		lda  (P8ZP_SCRATCH_W1),y
		cmp  #$80
		rol  a
		sta  (P8ZP_SCRATCH_W1),y
		rts
		.pend


strcpy		.proc
		; copy a string (must be 0-terminated) from A/Y to (P8ZP_SCRATCH_W1)
		; it is assumed the target string is large enough.
		; returns the length of the string that was copied in Y.
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		ldy  #$ff
-		iny
		lda  (P8ZP_SCRATCH_W2),y
		sta  (P8ZP_SCRATCH_W1),y
		bne  -
		rts
		.pend

strcmp_expression	.proc
		; -- compare strings, result in A
		lda  _arg_s2
		ldy  _arg_s2+1
		sta  P8ZP_SCRATCH_W2
		sty  P8ZP_SCRATCH_W2+1
		lda  _arg_s1
		ldy  _arg_s1+1
		jmp  strcmp_mem
_arg_s1		.word  0
_arg_s2		.word  0
		.pend

strcmp_mem	.proc
		; --   compares strings in s1 (AY) and s2 (P8ZP_SCRATCH_W2).
		;      Returns -1,0,1 in A, depeding on the ordering. Clobbers Y.
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		ldy  #0
_loop		lda  (P8ZP_SCRATCH_W1),y
		bne  +
		lda  (P8ZP_SCRATCH_W2),y
		bne  _return_minusone
		beq  _return
+		cmp  (P8ZP_SCRATCH_W2),y
		bcc  _return_minusone
		bne  _return_one
		inc  P8ZP_SCRATCH_W1
		bne  +
		inc  P8ZP_SCRATCH_W1+1
+		inc  P8ZP_SCRATCH_W2
		bne  _loop
		inc  P8ZP_SCRATCH_W2+1
		bne  _loop
_return_one
		lda  #1
_return		rts
_return_minusone
		lda  #-1
		rts
		.pend


strlen          .proc
        ; -- returns the number of bytes in the string in AY, in Y. Clobbers A.
		sta  P8ZP_SCRATCH_W1
		sty  P8ZP_SCRATCH_W1+1
		ldy  #0
-		lda  (P8ZP_SCRATCH_W1),y
		beq  +
		iny
		bne  -
+		rts
		.pend


containment_bytearray	.proc
	; -- check if a value exists in a byte array.
	;    parameters: P8ZP_SCRATCH_W1: address of the byte array, A = byte to check, Y = length of array (>=1).
	;    returns boolean 0/1 in A.
		dey
-		cmp  (P8ZP_SCRATCH_W1),y
		beq  +
		dey
		cpy  #255
		bne  -
		lda  #0
		rts
+		lda  #1
		rts
		.pend

containment_wordarray	.proc
	; -- check if a value exists in a word array.
	;    parameters: P8ZP_SCRATCH_W1: value to check, P8ZP_SCRATCH_W2: address of the word array, Y = length of array (>=1).
	;    returns boolean 0/1 in A.
		dey
		tya
		asl  a
		tay
-		lda  P8ZP_SCRATCH_W1
		cmp  (P8ZP_SCRATCH_W2),y
		bne  +
		lda  P8ZP_SCRATCH_W1+1
		iny
		cmp  (P8ZP_SCRATCH_W2),y
		beq  _found
		dey
+		dey
		dey
		cpy  #254
		bne  -
		lda  #0
		rts
_found		lda  #1
		rts
		.pend


arraycopy_split_to_normal_words .proc
	; P8ZP_SCRATCH_W1 = start of lsb array
	; P8ZP_SCRATCH_W2 = start of msb array
	; AY = start of normal word target array
	; X = number of elements to copy
                sta  _modlsb+1
                sty  _modlsb+2
                clc
                adc  #1
                bne  +
                iny
+               sta  _modmsb+1
                sty  _modmsb+2
                ldy  #0
-               lda  (P8ZP_SCRATCH_W1),y
_modlsb         sta  $ffff       ; modified lsb store
                lda  _modlsb+1
                clc
                adc  #2
                sta  _modlsb+1
                bcc  +
                inc  _modlsb+2
+               lda  (P8ZP_SCRATCH_W2),y
_modmsb         sta  $ffff       ; modified msb store
                lda  _modmsb+1
                clc
                adc  #2
                sta  _modmsb+1
                bcc  +
                inc  _modmsb+2
+               iny
                dex
                bne  -
		rts
		.pend


arraycopy_normal_to_split_words .proc
	; P8ZP_SCRATCH_W1 = start of target lsb array
	; P8ZP_SCRATCH_W2 = start of target msb array
	; AY = start of normal word source array
	; X = number of elements to copy
		sta  _modsrclsb+1
		sty  _modsrclsb+2
		clc
		adc  #1
		bne  +
		iny
+		sta  _modsrcmsb+1
		sty  _modsrcmsb+2
		ldy  #0
_modsrclsb      lda  $ffff      ; modified lsb read
		sta  (P8ZP_SCRATCH_W1),y
		lda  _modsrclsb+1
		clc
		adc  #2
		sta  _modsrclsb+1
		bcc  +
		inc  _modsrclsb+2
+
_modsrcmsb      lda  $ffff      ; modnfied msb read
		sta  (P8ZP_SCRATCH_W2),y
		lda  _modsrcmsb+1
		clc
		adc  #2
		sta  _modsrcmsb+1
		bcc  +
		inc  _modsrcmsb+2
+		iny
		dex
		bne  _modsrclsb
		rts
		.pend

memcopy_small   .proc
		; copy up to a single page (256 bytes) of memory.
		; note: only works for NON-OVERLAPPING memory regions!
		; P8ZP_SCRATCH_W1 = from address
		; P8ZP_SCRATCH_W2 = destination address
		; Y = number of bytes to copy  (where 0 means 256)
		cpy  #0
		beq  _fullpage
		dey
		beq  _lastbyte
_loop           lda  (P8ZP_SCRATCH_W1),y
                sta  (P8ZP_SCRATCH_W2),y
                dey
                bne  _loop
_lastbyte       lda  (P8ZP_SCRATCH_W1),y
                sta  (P8ZP_SCRATCH_W2),y
                rts
_fullpage       lda  (P8ZP_SCRATCH_W1),y
                sta  (P8ZP_SCRATCH_W2),y
                dey
                bne  _fullpage
                rts
		.pend
	; source: library:/prog8lib/prog8_lib.p8:7   %asminclude "library:prog8_funcs.asm"
; ---- builtin functions


func_any_b_into_A	.proc
		; -- any(array),  array in P8ZP_SCRATCH_W1, num bytes in A
		sta  _cmp_mod+1		; self-modifying code
		ldy  #0
-		lda  (P8ZP_SCRATCH_W1),y
		bne  _got_any
		iny
_cmp_mod	cpy  #255		; modified
		bne  -
		lda  #0
		rts
_got_any	lda  #1
		rts
		.pend


func_all_b_into_A	.proc
		; -- all(array),  array in P8ZP_SCRATCH_W1, num bytes in A
		sta  _cmp_mod+1		; self-modifying code
		ldy  #0
-		lda  (P8ZP_SCRATCH_W1),y
		beq  _got_not_all
		iny
_cmp_mod	cpy  #255		; modified
		bne  -
		lda  #1
_got_not_all	rts
		.pend

func_any_w_into_A	.proc
		asl  a
		jmp  func_any_b_into_A
		.pend

func_all_w_into_A	.proc
		; -- all(warray),  array in P8ZP_SCRATCH_W1, num bytes in A
		asl  a			; times 2 because of word
		sta  _cmp_mod+1		; self-modifying code
		ldy  #0
-		lda  (P8ZP_SCRATCH_W1),y
		bne  +
		iny
		lda  (P8ZP_SCRATCH_W1),y
		bne  ++
		lda  #0
		rts
+		iny
+		iny
_cmp_mod	cpy  #255		; modified
		bne  -
		lda  #1
		rts
		.pend

abs_b_into_A	.proc
	; -- A = abs(A)
		cmp  #0
		bmi  +
		rts
+		eor  #$ff
		clc
		adc  #1
		rts
		.pend

abs_w_into_AY	.proc
	; -- AY = abs(AY)
		cpy  #0
		bmi  +
		rts
+		eor  #$ff
		pha
		tya
		eor  #$ff
		tay
		pla
		clc
		adc  #1
		bcc  +
		iny
+		rts
		.pend

func_sign_b_into_A	.proc
		cmp  #0
		beq  _zero
		bmi  _neg
		lda  #1
_zero		rts
_neg		lda  #-1
		rts
		.pend

func_sign_ub_into_A	.proc
		cmp  #0
		bne  _pos
		rts
_pos		lda  #1
		rts
		.pend

func_sign_uw_into_A	.proc
		cpy  #0
		beq  _possibly_zero
_pos		lda  #1
		rts
_possibly_zero	cmp  #0
		bne  _pos
		rts
		.pend

func_sign_w_into_A	.proc
		cpy  #0
		beq  _possibly_zero
		bmi  _neg
_pos		lda  #1
		rts
_neg		lda  #-1
		rts
_possibly_zero	cmp  #0
		bne  _pos
		rts
		.pend


func_sqrt16_into_A	.proc
		; integer square root
		; http://6502org.wikidot.com/software-math-sqrt
		; https://github.com/TobyLobster/sqrt_test/blob/main/sqrt/sqrt7.a
		; Tweaked by TobyLobster and 0xC0DE to be smaller and faster
_numl = P8ZP_SCRATCH_W1
_numh = P8ZP_SCRATCH_W1+1
_loop_counter = P8ZP_SCRATCH_REG
_root = P8ZP_SCRATCH_B1
            sta  _numl
            sty  _numh
            ldx  #$ff
            stx  _loop_counter
            inx
            stx  _root
            sec
_loop       lda  _numh
            sbc  #$40
            tay
            txa
            sbc  _root
            bcc  +
            sty  _numh
            bcs  ++
+           txa
+           rol  _root
            asl  _numl
            rol  _numh
            rol  a
            asl  _numl
            rol  _numh
            rol  a
            tax
            lsr  _loop_counter
            bne  _loop
            lda  _root
            rts
		.pend


func_sort_ub	.proc
		; 8bit unsigned sort
		; sorting subroutine coded by mats rosengren (mats.rosengren@esa.int)
		; input:  address of array to sort in P8ZP_SCRATCH_W1, length in S
		; first, put pointer BEFORE array
		sta  P8ZP_SCRATCH_B1
		lda  P8ZP_SCRATCH_W1
		bne  +
		dec  P8ZP_SCRATCH_W1+1
+		dec  P8ZP_SCRATCH_W1
_sortloop	ldy  P8ZP_SCRATCH_B1		;start of subroutine sort
		lda  (P8ZP_SCRATCH_W1),y	;last value in (what is left of) sequence to be sorted
		sta  P8ZP_SCRATCH_REG		;save value. will be over-written by largest number
		jmp  _l2
_l1		dey
		beq  _l3
		lda  (P8ZP_SCRATCH_W1),y
		cmp  P8ZP_SCRATCH_W2+1
		bcc  _l1
_l2		sty  P8ZP_SCRATCH_W2	;index of potentially largest value
		sta  P8ZP_SCRATCH_W2+1	;potentially largest value
		jmp  _l1
_l3		ldy  P8ZP_SCRATCH_B1		;where the largest value shall be put
		lda  P8ZP_SCRATCH_W2+1	;the largest value
		sta  (P8ZP_SCRATCH_W1),y	;put largest value in place
		ldy  P8ZP_SCRATCH_W2	;index of free space
		lda  P8ZP_SCRATCH_REG		;the over-written value
		sta  (P8ZP_SCRATCH_W1),y	;put the over-written value in the free space
		dec  P8ZP_SCRATCH_B1		;end of the shorter sequence still left
		bne  _sortloop			;start working with the shorter sequence
		rts
		.pend


func_sort_b	.proc
		; 8bit signed sort
		; sorting subroutine coded by mats rosengren (mats.rosengren@esa.int)
		; input:  address of array to sort in P8ZP_SCRATCH_W1, length in A
		; first, put pointer BEFORE array
		sta  P8ZP_SCRATCH_B1
		lda  P8ZP_SCRATCH_W1
		bne  +
		dec  P8ZP_SCRATCH_W1+1
+		dec  P8ZP_SCRATCH_W1
_sortloop	ldy  P8ZP_SCRATCH_B1		;start of subroutine sort
		lda  (P8ZP_SCRATCH_W1),y	;last value in (what is left of) sequence to be sorted
		sta  P8ZP_SCRATCH_REG		;save value. will be over-written by largest number
		jmp  _l2
_l1		dey
		beq  _l3
		lda  (P8ZP_SCRATCH_W1),y
		cmp  P8ZP_SCRATCH_W2+1
		bmi  _l1
_l2		sty  P8ZP_SCRATCH_W2	;index of potentially largest value
		sta  P8ZP_SCRATCH_W2+1	;potentially largest value
		jmp  _l1
_l3		ldy  P8ZP_SCRATCH_B1		;where the largest value shall be put
		lda  P8ZP_SCRATCH_W2+1	;the largest value
		sta  (P8ZP_SCRATCH_W1),y	;put largest value in place
		ldy  P8ZP_SCRATCH_W2	;index of free space
		lda  P8ZP_SCRATCH_REG		;the over-written value
		sta  (P8ZP_SCRATCH_W1),y	;put the over-written value in the free space
		dec  P8ZP_SCRATCH_B1		;end of the shorter sequence still left
		bne  _sortloop			;start working with the shorter sequence
		rts
		.pend


func_sort_uw	.proc
		; 16bit unsigned sort
		; sorting subroutine coded by mats rosengren (mats.rosengren@esa.int)
		; input:  address of array to sort in P8ZP_SCRATCH_W1, length in A
		; first: subtract 2 of the pointer
		asl  a
		sta  P8ZP_SCRATCH_B1
		lda  P8ZP_SCRATCH_W1
		sec
		sbc  #2
		sta  P8ZP_SCRATCH_W1
		bcs  _sort_loop
		dec  P8ZP_SCRATCH_W1+1
_sort_loop	ldy  P8ZP_SCRATCH_B1    	;start of subroutine sort
		lda  (P8ZP_SCRATCH_W1),y    ;last value in (what is left of) sequence to be sorted
		sta  _work3          		;save value. will be over-written by largest number
		iny
		lda  (P8ZP_SCRATCH_W1),y
		sta  _work3+1
		dey
		jmp  _l2
_l1		dey
		dey
		beq  _l3
		iny
		lda  (P8ZP_SCRATCH_W1),y
		dey
		cmp  P8ZP_SCRATCH_W2+1
		bne  +
		lda  (P8ZP_SCRATCH_W1),y
		cmp  P8ZP_SCRATCH_W2
+		bcc  _l1
_l2		sty  _work1          		;index of potentially largest value
		lda  (P8ZP_SCRATCH_W1),y
		sta  P8ZP_SCRATCH_W2          ;potentially largest value
		iny
		lda  (P8ZP_SCRATCH_W1),y
		sta  P8ZP_SCRATCH_W2+1
		dey
		jmp  _l1
_l3		ldy  P8ZP_SCRATCH_B1           ;where the largest value shall be put
		lda  P8ZP_SCRATCH_W2          ;the largest value
		sta  (P8ZP_SCRATCH_W1),y      ;put largest value in place
		iny
		lda  P8ZP_SCRATCH_W2+1
		sta  (P8ZP_SCRATCH_W1),y
		ldy  _work1         		 ;index of free space
		lda  _work3          		;the over-written value
		sta  (P8ZP_SCRATCH_W1),y      ;put the over-written value in the free space
		iny
		lda  _work3+1
		sta  (P8ZP_SCRATCH_W1),y
		dey
		dec  P8ZP_SCRATCH_B1           ;end of the shorter sequence still left
		dec  P8ZP_SCRATCH_B1
		bne  _sort_loop           ;start working with the shorter sequence
		rts
_work1	.byte  0
_work3	.word  0
		.pend


func_sort_w	.proc
		; 16bit signed sort
		; sorting subroutine coded by mats rosengren (mats.rosengren@esa.int)
		; input:  address of array to sort in P8ZP_SCRATCH_W1, length in A
		; first: subtract 2 of the pointer
		asl  a
		sta  P8ZP_SCRATCH_B1
		lda  P8ZP_SCRATCH_W1
		sec
		sbc  #2
		sta  P8ZP_SCRATCH_W1
		bcs  _sort_loop
		dec  P8ZP_SCRATCH_W1+1
_sort_loop	ldy  P8ZP_SCRATCH_B1    	;start of subroutine sort
		lda  (P8ZP_SCRATCH_W1),y    ;last value in (what is left of) sequence to be sorted
		sta  _work3          		;save value. will be over-written by largest number
		iny
		lda  (P8ZP_SCRATCH_W1),y
		sta  _work3+1
		dey
		jmp  _l2
_l1		dey
		dey
		beq  _l3
		lda  (P8ZP_SCRATCH_W1),y
		cmp  P8ZP_SCRATCH_W2
		iny
		lda  (P8ZP_SCRATCH_W1),y
		dey
		sbc  P8ZP_SCRATCH_W2+1
		bvc  +
		eor  #$80
+		bmi  _l1
_l2		sty  _work1          		;index of potentially largest value
		lda  (P8ZP_SCRATCH_W1),y
		sta  P8ZP_SCRATCH_W2          ;potentially largest value
		iny
		lda  (P8ZP_SCRATCH_W1),y
		sta  P8ZP_SCRATCH_W2+1
		dey
		jmp  _l1
_l3		ldy  P8ZP_SCRATCH_B1           ;where the largest value shall be put
		lda  P8ZP_SCRATCH_W2          ;the largest value
		sta  (P8ZP_SCRATCH_W1),y      ;put largest value in place
		iny
		lda  P8ZP_SCRATCH_W2+1
		sta  (P8ZP_SCRATCH_W1),y
		ldy  _work1         		 ;index of free space
		lda  _work3          		;the over-written value
		sta  (P8ZP_SCRATCH_W1),y      ;put the over-written value in the free space
		iny
		lda  _work3+1
		sta  (P8ZP_SCRATCH_W1),y
		dey
		dec  P8ZP_SCRATCH_B1           ;end of the shorter sequence still left
		dec  P8ZP_SCRATCH_B1
		bne  _sort_loop           ;start working with the shorter sequence
		rts
_work1	.byte  0
_work3	.word  0
		.pend


func_reverse_b	.proc
		; --- reverse an array of bytes (in-place)
		; inputs:  pointer to array in P8ZP_SCRATCH_W1, length in A
_index_right = P8ZP_SCRATCH_W2
_index_left = P8ZP_SCRATCH_W2+1
_loop_count = P8ZP_SCRATCH_REG
		sta  _loop_count
		lsr  _loop_count
		sec
		sbc  #1
		sta  _index_right
		lda  #0
		sta  _index_left
_loop		ldy  _index_right
		lda  (P8ZP_SCRATCH_W1),y
		pha
		ldy  _index_left
		lda  (P8ZP_SCRATCH_W1),y
		ldy  _index_right
		sta  (P8ZP_SCRATCH_W1),y
		pla
		ldy  _index_left
		sta  (P8ZP_SCRATCH_W1),y
		inc  _index_left
		dec  _index_right
		dec  _loop_count
		bne  _loop
		rts
		.pend


func_reverse_w	.proc
		; --- reverse an array of words (in-place)
		; inputs:  pointer to array in P8ZP_SCRATCH_W1, length in A
_index_first = P8ZP_SCRATCH_W2
_index_second = P8ZP_SCRATCH_W2+1
_loop_count = P8ZP_SCRATCH_REG
		pha
		asl  a     ; *2 because words
		sec
		sbc  #2
		sta  _index_first
		lda  #0
		sta  _index_second
		pla
		lsr  a
		pha
		sta  _loop_count
		; first reverse the lsbs
_loop_lo	ldy  _index_first
		lda  (P8ZP_SCRATCH_W1),y
		pha
		ldy  _index_second
		lda  (P8ZP_SCRATCH_W1),y
		ldy  _index_first
		sta  (P8ZP_SCRATCH_W1),y
		pla
		ldy  _index_second
		sta  (P8ZP_SCRATCH_W1),y
		inc  _index_second
		inc  _index_second
		dec  _index_first
		dec  _index_first
		dec  _loop_count
		bne  _loop_lo
		; now reverse the msbs
		dec  _index_second
		inc  _index_first
		inc  _index_first
		inc  _index_first
		pla
		sta  _loop_count
_loop_hi	ldy  _index_first
		lda  (P8ZP_SCRATCH_W1),y
		pha
		ldy  _index_second
		lda  (P8ZP_SCRATCH_W1),y
		ldy  _index_first
		sta  (P8ZP_SCRATCH_W1),y
		pla
		ldy  _index_second
		sta  (P8ZP_SCRATCH_W1),y
		dec  _index_second
		dec  _index_second
		inc  _index_first
		inc  _index_first
		dec  _loop_count
		bne  _loop_hi

		rts
		.pend


func_peekw   .proc
	; -- read the word value on the address in AY
	sta  P8ZP_SCRATCH_W1
	sty  P8ZP_SCRATCH_W1+1
	ldy  #0
	lda  (P8ZP_SCRATCH_W1),y
	pha
	iny
	lda  (P8ZP_SCRATCH_W1),y
	tay
	pla
	rts
	.pend


func_pokew   .proc
	; -- store the word value in AY in the address in P8ZP_SCRATCH_W1
	sty  P8ZP_SCRATCH_REG
	ldy  #0
	sta  (P8ZP_SCRATCH_W1),y
	iny
	lda  P8ZP_SCRATCH_REG
	sta  (P8ZP_SCRATCH_W1),y
	rts
	.pend


func_clamp_byte .proc
	; signed value in A, result in A
	; minimum in P8ZP_SCRATCH_W1
	; maximum in P8ZP_SCRATCH_W1+1
	tay
	sec
	sbc  P8ZP_SCRATCH_W1+1
	bvc  +
	eor  #$80
+       bmi  +
	lda  P8ZP_SCRATCH_W1+1
	tay
	jmp  ++
+       tya
+	sec
	sbc  P8ZP_SCRATCH_W1
	bvc  +
	eor  #$80
+       bmi  +
	tya
	rts
+       lda  P8ZP_SCRATCH_W1
	rts
	.pend


func_clamp_ubyte .proc
	; value in A, result in A
	; minimum in P8ZP_SCRATCH_W1
	; maximum in P8ZP_SCRATCH_W1+1
	cmp  P8ZP_SCRATCH_W1+1
	bcc  +
	lda  P8ZP_SCRATCH_W1+1
+       cmp  P8ZP_SCRATCH_W1
	bcc  +
	rts
+       lda  P8ZP_SCRATCH_W1
	rts
	.pend

func_clamp_word .proc
	; signed value in AY, result in AY
	; minimum in P8ZP_SCRATCH_W1
	; maximum in P8ZP_SCRATCH_W2
	sta  P8ZP_SCRATCH_B1
	sty  P8ZP_SCRATCH_REG
	ldy  P8ZP_SCRATCH_W2+1
	lda  P8ZP_SCRATCH_W2
	cmp  P8ZP_SCRATCH_B1
	tya
	sbc  P8ZP_SCRATCH_REG
	bvc  +
	eor  #$80
+       bpl  +
	lda  P8ZP_SCRATCH_W2
	ldy  P8ZP_SCRATCH_W2+1
	sta  P8ZP_SCRATCH_B1
	sty  P8ZP_SCRATCH_REG
+	ldy  P8ZP_SCRATCH_W1+1
	lda  P8ZP_SCRATCH_W1
	cmp  P8ZP_SCRATCH_B1
	tya
	sbc  P8ZP_SCRATCH_REG
	bvc  +
	eor  #$80
+       bpl  +
	ldy  P8ZP_SCRATCH_REG
	lda  P8ZP_SCRATCH_B1
	rts
+	ldy  P8ZP_SCRATCH_W1+1
	lda  P8ZP_SCRATCH_W1
	rts
	.pend

func_clamp_uword .proc
	; value in AY, result in AY
	; minimum in P8ZP_SCRATCH_W1
	; maximum in P8ZP_SCRATCH_W2
	sta  P8ZP_SCRATCH_B1
	sty  P8ZP_SCRATCH_REG
	cpy  P8ZP_SCRATCH_W2+1
	bcc  ++
	bne  +
	cmp  P8ZP_SCRATCH_W2
	bcc  ++
+       beq  +
	lda  P8ZP_SCRATCH_W2
	ldy  P8ZP_SCRATCH_W2+1
	sta  P8ZP_SCRATCH_B1
	sty  P8ZP_SCRATCH_REG
+	ldy  P8ZP_SCRATCH_REG
	lda  P8ZP_SCRATCH_B1
	cpy  P8ZP_SCRATCH_W1+1
	bcc  ++
	bne  +
	cmp  P8ZP_SCRATCH_W1
	bcc  ++
+       beq  +
	ldy  P8ZP_SCRATCH_REG
	lda  P8ZP_SCRATCH_B1
	rts
+	ldy  P8ZP_SCRATCH_W1+1
	lda  P8ZP_SCRATCH_W1
	rts

	.pend
	.pend
; global float constants
prog8_float_const_0	.byte  $81, $00, $00, $00, $00  ; float 1.0
; expression temp vars
	.section BSS
	.send BSS
; bss sections
PROG8_VARSHIGH_RAMBANK = 1
prog8_bss_section_start
	.dsection BSS
prog8_bss_section_size = * - prog8_bss_section_start
	.dsection slabs_BSS
prog8_program_end	; end of program label for progend()