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Added missing ref files

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jespergravgaard 2019-02-24 23:24:20 +01:00
parent 0a955d6bec
commit de58d9b6dd
4 changed files with 744 additions and 0 deletions
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43
src/test/ref/string-const-consolidation-noroot.asm Normal file
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// Tests that identical strings are consolidated
.pc = $801 "Basic"
:BasicUpstart(main)
.pc = $80d "Program"
.label screen = 2
main: {
lda #<$400
sta screen
lda #>$400
sta screen+1
jsr print
jsr print
jsr print
rts
string: .text "rex@"
}
// print(byte* zeropage(4) string)
print: {
.label string = 4
lda #<main.string
sta string
lda #>main.string
sta string+1
b1:
ldy #0
lda (string),y
cmp #'@'
bne b2
rts
b2:
ldy #0
lda (string),y
sta (screen),y
inc screen
bne !+
inc screen+1
!:
inc string
bne !+
inc string+1
!:
jmp b1
}

40
src/test/ref/string-const-consolidation-noroot.cfg Normal file
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@begin: scope:[] from
[0] phi()
to:@2
@2: scope:[] from @begin
[1] phi()
[2] call main
to:@end
@end: scope:[] from @2
[3] phi()
main: scope:[main] from @2
[4] phi()
[5] call print
to:main::@1
main::@1: scope:[main] from main
[6] phi()
[7] call print
to:main::@2
main::@2: scope:[main] from main::@1
[8] phi()
[9] call print
to:main::@return
main::@return: scope:[main] from main::@2
[10] return
to:@return
print: scope:[print] from main main::@1 main::@2
[11] (byte*) screen#18 ← phi( main/((byte*))(word/signed word/dword/signed dword) 1024 main::@1/(byte*) screen#12 main::@2/(byte*) screen#12 )
to:print::@1
print::@1: scope:[print] from print print::@2
[12] (byte*) screen#12 ← phi( print/(byte*) screen#18 print::@2/(byte*) screen#5 )
[12] (byte*) print::string#4 ← phi( print/(const string) main::string print::@2/(byte*) print::string#3 )
[13] if(*((byte*) print::string#4)!=(byte) '@') goto print::@2
to:print::@return
print::@return: scope:[print] from print::@1
[14] return
to:@return
print::@2: scope:[print] from print::@1
[15] *((byte*) screen#12) ← *((byte*) print::string#4)
[16] (byte*) screen#5 ← ++ (byte*) screen#12
[17] (byte*) print::string#3 ← ++ (byte*) print::string#4
to:print::@1

637
src/test/ref/string-const-consolidation-noroot.log Normal file
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CONTROL FLOW GRAPH SSA
@begin: scope:[] from
(byte*) screen#0 ← ((byte*)) (word/signed word/dword/signed dword) 1024
to:@2
main: scope:[main] from @2
(byte*) screen#15 ← phi( @2/(byte*) screen#17 )
(byte[]) main::rex1#0 ← (const string) main::$3
(byte[]) main::rex2#0 ← (const string) main::$4
(byte*) print::string#0 ← (byte[]) main::rex1#0
call print
to:main::@1
main::@1: scope:[main] from main
(byte*) screen#8 ← phi( main/(byte*) screen#6 )
(byte*) screen#1 ← (byte*) screen#8
(byte*) print::string#1 ← (byte[]) main::rex2#0
call print
to:main::@2
main::@2: scope:[main] from main::@1
(byte*) screen#9 ← phi( main::@1/(byte*) screen#6 )
(byte*) screen#2 ← (byte*) screen#9
(byte*) print::string#2 ← (const string) main::string
call print
to:main::@3
main::@3: scope:[main] from main::@2
(byte*) screen#10 ← phi( main::@2/(byte*) screen#6 )
(byte*) screen#3 ← (byte*) screen#10
to:main::@return
main::@return: scope:[main] from main::@3
(byte*) screen#11 ← phi( main::@3/(byte*) screen#3 )
(byte*) screen#4 ← (byte*) screen#11
return
to:@return
print: scope:[print] from main main::@1 main::@2
(byte*) screen#18 ← phi( main/(byte*) screen#15 main::@1/(byte*) screen#1 main::@2/(byte*) screen#2 )
(byte*) print::string#6 ← phi( main/(byte*) print::string#0 main::@1/(byte*) print::string#1 main::@2/(byte*) print::string#2 )
to:print::@1
print::@1: scope:[print] from print print::@2
(byte*) screen#16 ← phi( print/(byte*) screen#18 print::@2/(byte*) screen#5 )
(byte*) print::string#4 ← phi( print/(byte*) print::string#6 print::@2/(byte*) print::string#3 )
(bool~) print::$0 ← *((byte*) print::string#4) != (byte) '@'
if((bool~) print::$0) goto print::@2
to:print::@return
print::@2: scope:[print] from print::@1
(byte*) screen#12 ← phi( print::@1/(byte*) screen#16 )
(byte*) print::string#5 ← phi( print::@1/(byte*) print::string#4 )
*((byte*) screen#12) ← *((byte*) print::string#5)
(byte*) screen#5 ← ++ (byte*) screen#12
(byte*) print::string#3 ← ++ (byte*) print::string#5
to:print::@1
print::@return: scope:[print] from print::@1
(byte*) screen#13 ← phi( print::@1/(byte*) screen#16 )
(byte*) screen#6 ← (byte*) screen#13
return
to:@return
@2: scope:[] from @begin
(byte*) screen#17 ← phi( @begin/(byte*) screen#0 )
call main
to:@3
@3: scope:[] from @2
(byte*) screen#14 ← phi( @2/(byte*) screen#4 )
(byte*) screen#7 ← (byte*) screen#14
to:@end
@end: scope:[] from @3
SYMBOL TABLE SSA
(label) @2
(label) @3
(label) @begin
(label) @end
(void()) main()
(const string) main::$3 = (string) "rex@"
(const string) main::$4 = (string) "rex@"
(label) main::@1
(label) main::@2
(label) main::@3
(label) main::@return
(byte[]) main::rex1
(byte[]) main::rex1#0
(byte[]) main::rex2
(byte[]) main::rex2#0
(const string) main::string = (string) "rex@"
(void()) print((byte*) print::string)
(bool~) print::$0
(label) print::@1
(label) print::@2
(label) print::@return
(byte*) print::string
(byte*) print::string#0
(byte*) print::string#1
(byte*) print::string#2
(byte*) print::string#3
(byte*) print::string#4
(byte*) print::string#5
(byte*) print::string#6
(byte*) screen
(byte*) screen#0
(byte*) screen#1
(byte*) screen#10
(byte*) screen#11
(byte*) screen#12
(byte*) screen#13
(byte*) screen#14
(byte*) screen#15
(byte*) screen#16
(byte*) screen#17
(byte*) screen#18
(byte*) screen#2
(byte*) screen#3
(byte*) screen#4
(byte*) screen#5
(byte*) screen#6
(byte*) screen#7
(byte*) screen#8
(byte*) screen#9
Alias (byte*) screen#1 = (byte*) screen#8
Alias (byte*) screen#2 = (byte*) screen#9
Alias (byte*) screen#10 = (byte*) screen#3 (byte*) screen#11 (byte*) screen#4
Alias (byte*) print::string#4 = (byte*) print::string#5
Alias (byte*) screen#12 = (byte*) screen#16 (byte*) screen#13 (byte*) screen#6
Alias (byte*) screen#0 = (byte*) screen#17
Alias (byte*) screen#14 = (byte*) screen#7
Successful SSA optimization Pass2AliasElimination
Redundant Phi (byte*) screen#15 (byte*) screen#0
Redundant Phi (byte*) screen#1 (byte*) screen#12
Redundant Phi (byte*) screen#2 (byte*) screen#12
Redundant Phi (byte*) screen#10 (byte*) screen#12
Redundant Phi (byte*) screen#14 (byte*) screen#10
Successful SSA optimization Pass2RedundantPhiElimination
Simple Condition (bool~) print::$0 [22] if(*((byte*) print::string#4)!=(byte) '@') goto print::@2
Successful SSA optimization Pass2ConditionalJumpSimplification
Constant (const byte*) screen#0 = ((byte*))1024
Constant (const byte[]) main::rex1#0 = main::$3
Constant (const byte[]) main::rex2#0 = main::$4
Constant (const byte*) print::string#2 = main::string
Successful SSA optimization Pass2ConstantIdentification
Constant (const byte*) print::string#0 = main::rex1#0
Constant (const byte*) print::string#1 = main::rex2#0
Successful SSA optimization Pass2ConstantIdentification
Successful SSA optimization Pass2ConstantStringConsolidation
Culled Empty Block (label) main::@3
Culled Empty Block (label) @3
Successful SSA optimization Pass2CullEmptyBlocks
Inlining constant with var siblings (const byte*) print::string#2
Inlining constant with var siblings (const byte*) print::string#0
Inlining constant with var siblings (const byte*) print::string#1
Inlining constant with var siblings (const byte*) screen#0
Constant inlined main::$3 = (const byte[]) main::rex1#0
Constant inlined print::string#0 = (const byte[]) main::rex1#0
Constant inlined main::$4 = (const byte[]) main::rex2#0
Constant inlined print::string#1 = (const byte[]) main::rex2#0
Constant inlined print::string#2 = (const string) main::string
Constant inlined screen#0 = ((byte*))(word/signed word/dword/signed dword) 1024
Successful SSA optimization Pass2ConstantInlining
Successful SSA optimization Pass2ConstantStringConsolidation
Constant inlined main::rex1#0 = (const string) main::string
Constant inlined main::rex2#0 = (const string) main::string
Successful SSA optimization Pass2ConstantInlining
Identical Phi Values (byte*) print::string#6 (const string) main::string
Successful SSA optimization Pass2IdenticalPhiElimination
Adding NOP phi() at start of @begin
Adding NOP phi() at start of @2
Adding NOP phi() at start of @end
Adding NOP phi() at start of main
CALL GRAPH
Calls in [] to main:2
Calls in [main] to print:5 print:7 print:9
Created 3 initial phi equivalence classes
Coalesced [6] screen#19 ← screen#12
Coalesced (already) [8] screen#20 ← screen#12
Coalesced (already) [12] screen#21 ← screen#18
Coalesced [19] print::string#7 ← print::string#3
Coalesced [20] screen#22 ← screen#5
Coalesced down to 2 phi equivalence classes
Adding NOP phi() at start of @begin
Adding NOP phi() at start of @2
Adding NOP phi() at start of @end
Adding NOP phi() at start of main
Adding NOP phi() at start of main::@1
Adding NOP phi() at start of main::@2
FINAL CONTROL FLOW GRAPH
@begin: scope:[] from
[0] phi()
to:@2
@2: scope:[] from @begin
[1] phi()
[2] call main
to:@end
@end: scope:[] from @2
[3] phi()
main: scope:[main] from @2
[4] phi()
[5] call print
to:main::@1
main::@1: scope:[main] from main
[6] phi()
[7] call print
to:main::@2
main::@2: scope:[main] from main::@1
[8] phi()
[9] call print
to:main::@return
main::@return: scope:[main] from main::@2
[10] return
to:@return
print: scope:[print] from main main::@1 main::@2
[11] (byte*) screen#18 ← phi( main/((byte*))(word/signed word/dword/signed dword) 1024 main::@1/(byte*) screen#12 main::@2/(byte*) screen#12 )
to:print::@1
print::@1: scope:[print] from print print::@2
[12] (byte*) screen#12 ← phi( print/(byte*) screen#18 print::@2/(byte*) screen#5 )
[12] (byte*) print::string#4 ← phi( print/(const string) main::string print::@2/(byte*) print::string#3 )
[13] if(*((byte*) print::string#4)!=(byte) '@') goto print::@2
to:print::@return
print::@return: scope:[print] from print::@1
[14] return
to:@return
print::@2: scope:[print] from print::@1
[15] *((byte*) screen#12) ← *((byte*) print::string#4)
[16] (byte*) screen#5 ← ++ (byte*) screen#12
[17] (byte*) print::string#3 ← ++ (byte*) print::string#4
to:print::@1
VARIABLE REGISTER WEIGHTS
(void()) main()
(byte[]) main::rex1
(byte[]) main::rex2
(void()) print((byte*) print::string)
(byte*) print::string
(byte*) print::string#3 22.0
(byte*) print::string#4 11.0
(byte*) screen
(byte*) screen#12 4.875
(byte*) screen#18 6.0
(byte*) screen#5 11.0
Initial phi equivalence classes
[ screen#18 screen#12 screen#5 ]
[ print::string#4 print::string#3 ]
Complete equivalence classes
[ screen#18 screen#12 screen#5 ]
[ print::string#4 print::string#3 ]
Allocated zp ZP_WORD:2 [ screen#18 screen#12 screen#5 ]
Allocated zp ZP_WORD:4 [ print::string#4 print::string#3 ]
INITIAL ASM
//SEG0 File Comments
// Tests that identical strings are consolidated
//SEG1 Basic Upstart
.pc = $801 "Basic"
:BasicUpstart(bbegin)
.pc = $80d "Program"
//SEG2 Global Constants & labels
.label screen = 2
//SEG3 @begin
bbegin:
//SEG4 [1] phi from @begin to @2 [phi:@begin->@2]
b2_from_bbegin:
jmp b2
//SEG5 @2
b2:
//SEG6 [2] call main
//SEG7 [4] phi from @2 to main [phi:@2->main]
main_from_b2:
jsr main
//SEG8 [3] phi from @2 to @end [phi:@2->@end]
bend_from_b2:
jmp bend
//SEG9 @end
bend:
//SEG10 main
main: {
//SEG11 [5] call print
//SEG12 [11] phi from main to print [phi:main->print]
print_from_main:
//SEG13 [11] phi (byte*) screen#18 = ((byte*))(word/signed word/dword/signed dword) 1024 [phi:main->print#0] -- pbuz1=pbuc1
lda #<$400
sta screen
lda #>$400
sta screen+1
jsr print
//SEG14 [6] phi from main to main::@1 [phi:main->main::@1]
b1_from_main:
jmp b1
//SEG15 main::@1
b1:
//SEG16 [7] call print
//SEG17 [11] phi from main::@1 to print [phi:main::@1->print]
print_from_b1:
//SEG18 [11] phi (byte*) screen#18 = (byte*) screen#12 [phi:main::@1->print#0] -- register_copy
jsr print
//SEG19 [8] phi from main::@1 to main::@2 [phi:main::@1->main::@2]
b2_from_b1:
jmp b2
//SEG20 main::@2
b2:
//SEG21 [9] call print
//SEG22 [11] phi from main::@2 to print [phi:main::@2->print]
print_from_b2:
//SEG23 [11] phi (byte*) screen#18 = (byte*) screen#12 [phi:main::@2->print#0] -- register_copy
jsr print
jmp breturn
//SEG24 main::@return
breturn:
//SEG25 [10] return
rts
string: .text "rex@"
}
//SEG26 print
// print(byte* zeropage(4) string)
print: {
.label string = 4
//SEG27 [12] phi from print to print::@1 [phi:print->print::@1]
b1_from_print:
//SEG28 [12] phi (byte*) screen#12 = (byte*) screen#18 [phi:print->print::@1#0] -- register_copy
//SEG29 [12] phi (byte*) print::string#4 = (const string) main::string [phi:print->print::@1#1] -- pbuz1=pbuc1
lda #<main.string
sta string
lda #>main.string
sta string+1
jmp b1
//SEG30 print::@1
b1:
//SEG31 [13] if(*((byte*) print::string#4)!=(byte) '@') goto print::@2 -- _deref_pbuz1_neq_vbuc1_then_la1
ldy #0
lda (string),y
cmp #'@'
bne b2
jmp breturn
//SEG32 print::@return
breturn:
//SEG33 [14] return
rts
//SEG34 print::@2
b2:
//SEG35 [15] *((byte*) screen#12) ← *((byte*) print::string#4) -- _deref_pbuz1=_deref_pbuz2
ldy #0
lda (string),y
ldy #0
sta (screen),y
//SEG36 [16] (byte*) screen#5 ← ++ (byte*) screen#12 -- pbuz1=_inc_pbuz1
inc screen
bne !+
inc screen+1
!:
//SEG37 [17] (byte*) print::string#3 ← ++ (byte*) print::string#4 -- pbuz1=_inc_pbuz1
inc string
bne !+
inc string+1
!:
//SEG38 [12] phi from print::@2 to print::@1 [phi:print::@2->print::@1]
b1_from_b2:
//SEG39 [12] phi (byte*) screen#12 = (byte*) screen#5 [phi:print::@2->print::@1#0] -- register_copy
//SEG40 [12] phi (byte*) print::string#4 = (byte*) print::string#3 [phi:print::@2->print::@1#1] -- register_copy
jmp b1
}
REGISTER UPLIFT POTENTIAL REGISTERS
Statement [13] if(*((byte*) print::string#4)!=(byte) '@') goto print::@2 [ screen#12 print::string#4 ] ( main:2::print:5 [ screen#12 print::string#4 ] main:2::print:7 [ screen#12 print::string#4 ] main:2::print:9 [ screen#12 print::string#4 ] ) always clobbers reg byte a reg byte y
Statement [15] *((byte*) screen#12) ← *((byte*) print::string#4) [ screen#12 print::string#4 ] ( main:2::print:5 [ screen#12 print::string#4 ] main:2::print:7 [ screen#12 print::string#4 ] main:2::print:9 [ screen#12 print::string#4 ] ) always clobbers reg byte a reg byte y
Potential registers zp ZP_WORD:2 [ screen#18 screen#12 screen#5 ] : zp ZP_WORD:2 ,
Potential registers zp ZP_WORD:4 [ print::string#4 print::string#3 ] : zp ZP_WORD:4 ,
REGISTER UPLIFT SCOPES
Uplift Scope [print] 33: zp ZP_WORD:4 [ print::string#4 print::string#3 ]
Uplift Scope [] 21.88: zp ZP_WORD:2 [ screen#18 screen#12 screen#5 ]
Uplift Scope [main]
Uplifting [print] best 776 combination zp ZP_WORD:4 [ print::string#4 print::string#3 ]
Uplifting [] best 776 combination zp ZP_WORD:2 [ screen#18 screen#12 screen#5 ]
Uplifting [main] best 776 combination
ASSEMBLER BEFORE OPTIMIZATION
//SEG0 File Comments
// Tests that identical strings are consolidated
//SEG1 Basic Upstart
.pc = $801 "Basic"
:BasicUpstart(bbegin)
.pc = $80d "Program"
//SEG2 Global Constants & labels
.label screen = 2
//SEG3 @begin
bbegin:
//SEG4 [1] phi from @begin to @2 [phi:@begin->@2]
b2_from_bbegin:
jmp b2
//SEG5 @2
b2:
//SEG6 [2] call main
//SEG7 [4] phi from @2 to main [phi:@2->main]
main_from_b2:
jsr main
//SEG8 [3] phi from @2 to @end [phi:@2->@end]
bend_from_b2:
jmp bend
//SEG9 @end
bend:
//SEG10 main
main: {
//SEG11 [5] call print
//SEG12 [11] phi from main to print [phi:main->print]
print_from_main:
//SEG13 [11] phi (byte*) screen#18 = ((byte*))(word/signed word/dword/signed dword) 1024 [phi:main->print#0] -- pbuz1=pbuc1
lda #<$400
sta screen
lda #>$400
sta screen+1
jsr print
//SEG14 [6] phi from main to main::@1 [phi:main->main::@1]
b1_from_main:
jmp b1
//SEG15 main::@1
b1:
//SEG16 [7] call print
//SEG17 [11] phi from main::@1 to print [phi:main::@1->print]
print_from_b1:
//SEG18 [11] phi (byte*) screen#18 = (byte*) screen#12 [phi:main::@1->print#0] -- register_copy
jsr print
//SEG19 [8] phi from main::@1 to main::@2 [phi:main::@1->main::@2]
b2_from_b1:
jmp b2
//SEG20 main::@2
b2:
//SEG21 [9] call print
//SEG22 [11] phi from main::@2 to print [phi:main::@2->print]
print_from_b2:
//SEG23 [11] phi (byte*) screen#18 = (byte*) screen#12 [phi:main::@2->print#0] -- register_copy
jsr print
jmp breturn
//SEG24 main::@return
breturn:
//SEG25 [10] return
rts
string: .text "rex@"
}
//SEG26 print
// print(byte* zeropage(4) string)
print: {
.label string = 4
//SEG27 [12] phi from print to print::@1 [phi:print->print::@1]
b1_from_print:
//SEG28 [12] phi (byte*) screen#12 = (byte*) screen#18 [phi:print->print::@1#0] -- register_copy
//SEG29 [12] phi (byte*) print::string#4 = (const string) main::string [phi:print->print::@1#1] -- pbuz1=pbuc1
lda #<main.string
sta string
lda #>main.string
sta string+1
jmp b1
//SEG30 print::@1
b1:
//SEG31 [13] if(*((byte*) print::string#4)!=(byte) '@') goto print::@2 -- _deref_pbuz1_neq_vbuc1_then_la1
ldy #0
lda (string),y
cmp #'@'
bne b2
jmp breturn
//SEG32 print::@return
breturn:
//SEG33 [14] return
rts
//SEG34 print::@2
b2:
//SEG35 [15] *((byte*) screen#12) ← *((byte*) print::string#4) -- _deref_pbuz1=_deref_pbuz2
ldy #0
lda (string),y
ldy #0
sta (screen),y
//SEG36 [16] (byte*) screen#5 ← ++ (byte*) screen#12 -- pbuz1=_inc_pbuz1
inc screen
bne !+
inc screen+1
!:
//SEG37 [17] (byte*) print::string#3 ← ++ (byte*) print::string#4 -- pbuz1=_inc_pbuz1
inc string
bne !+
inc string+1
!:
//SEG38 [12] phi from print::@2 to print::@1 [phi:print::@2->print::@1]
b1_from_b2:
//SEG39 [12] phi (byte*) screen#12 = (byte*) screen#5 [phi:print::@2->print::@1#0] -- register_copy
//SEG40 [12] phi (byte*) print::string#4 = (byte*) print::string#3 [phi:print::@2->print::@1#1] -- register_copy
jmp b1
}
ASSEMBLER OPTIMIZATIONS
Removing instruction jmp b2
Removing instruction jmp bend
Removing instruction jmp b1
Removing instruction jmp b2
Removing instruction jmp breturn
Removing instruction jmp b1
Removing instruction jmp breturn
Succesful ASM optimization Pass5NextJumpElimination
Removing instruction ldy #0
Succesful ASM optimization Pass5UnnecesaryLoadElimination
Removing instruction b2_from_bbegin:
Removing instruction b2:
Removing instruction main_from_b2:
Removing instruction bend_from_b2:
Removing instruction b1_from_main:
Removing instruction print_from_b1:
Removing instruction b2_from_b1:
Removing instruction print_from_b2:
Succesful ASM optimization Pass5RedundantLabelElimination
Removing instruction bend:
Removing instruction print_from_main:
Removing instruction b1:
Removing instruction b2:
Removing instruction breturn:
Removing instruction b1_from_print:
Removing instruction breturn:
Removing instruction b1_from_b2:
Succesful ASM optimization Pass5UnusedLabelElimination
Updating BasicUpstart to call main directly
Removing instruction jsr main
Succesful ASM optimization Pass5SkipBegin
Removing instruction bbegin:
Succesful ASM optimization Pass5UnusedLabelElimination
FINAL SYMBOL TABLE
(label) @2
(label) @begin
(label) @end
(void()) main()
(label) main::@1
(label) main::@2
(label) main::@return
(byte[]) main::rex1
(byte[]) main::rex2
(const string) main::string string = (string) "rex@"
(void()) print((byte*) print::string)
(label) print::@1
(label) print::@2
(label) print::@return
(byte*) print::string
(byte*) print::string#3 string zp ZP_WORD:4 22.0
(byte*) print::string#4 string zp ZP_WORD:4 11.0
(byte*) screen
(byte*) screen#12 screen zp ZP_WORD:2 4.875
(byte*) screen#18 screen zp ZP_WORD:2 6.0
(byte*) screen#5 screen zp ZP_WORD:2 11.0
zp ZP_WORD:2 [ screen#18 screen#12 screen#5 ]
zp ZP_WORD:4 [ print::string#4 print::string#3 ]
FINAL ASSEMBLER
Score: 675
//SEG0 File Comments
// Tests that identical strings are consolidated
//SEG1 Basic Upstart
.pc = $801 "Basic"
:BasicUpstart(main)
.pc = $80d "Program"
//SEG2 Global Constants & labels
.label screen = 2
//SEG3 @begin
//SEG4 [1] phi from @begin to @2 [phi:@begin->@2]
//SEG5 @2
//SEG6 [2] call main
//SEG7 [4] phi from @2 to main [phi:@2->main]
//SEG8 [3] phi from @2 to @end [phi:@2->@end]
//SEG9 @end
//SEG10 main
main: {
//SEG11 [5] call print
//SEG12 [11] phi from main to print [phi:main->print]
//SEG13 [11] phi (byte*) screen#18 = ((byte*))(word/signed word/dword/signed dword) 1024 [phi:main->print#0] -- pbuz1=pbuc1
lda #<$400
sta screen
lda #>$400
sta screen+1
jsr print
//SEG14 [6] phi from main to main::@1 [phi:main->main::@1]
//SEG15 main::@1
//SEG16 [7] call print
//SEG17 [11] phi from main::@1 to print [phi:main::@1->print]
//SEG18 [11] phi (byte*) screen#18 = (byte*) screen#12 [phi:main::@1->print#0] -- register_copy
jsr print
//SEG19 [8] phi from main::@1 to main::@2 [phi:main::@1->main::@2]
//SEG20 main::@2
//SEG21 [9] call print
//SEG22 [11] phi from main::@2 to print [phi:main::@2->print]
//SEG23 [11] phi (byte*) screen#18 = (byte*) screen#12 [phi:main::@2->print#0] -- register_copy
jsr print
//SEG24 main::@return
//SEG25 [10] return
rts
string: .text "rex@"
}
//SEG26 print
// print(byte* zeropage(4) string)
print: {
.label string = 4
//SEG27 [12] phi from print to print::@1 [phi:print->print::@1]
//SEG28 [12] phi (byte*) screen#12 = (byte*) screen#18 [phi:print->print::@1#0] -- register_copy
//SEG29 [12] phi (byte*) print::string#4 = (const string) main::string [phi:print->print::@1#1] -- pbuz1=pbuc1
lda #<main.string
sta string
lda #>main.string
sta string+1
//SEG30 print::@1
b1:
//SEG31 [13] if(*((byte*) print::string#4)!=(byte) '@') goto print::@2 -- _deref_pbuz1_neq_vbuc1_then_la1
ldy #0
lda (string),y
cmp #'@'
bne b2
//SEG32 print::@return
//SEG33 [14] return
rts
//SEG34 print::@2
b2:
//SEG35 [15] *((byte*) screen#12) ← *((byte*) print::string#4) -- _deref_pbuz1=_deref_pbuz2
ldy #0
lda (string),y
sta (screen),y
//SEG36 [16] (byte*) screen#5 ← ++ (byte*) screen#12 -- pbuz1=_inc_pbuz1
inc screen
bne !+
inc screen+1
!:
//SEG37 [17] (byte*) print::string#3 ← ++ (byte*) print::string#4 -- pbuz1=_inc_pbuz1
inc string
bne !+
inc string+1
!:
//SEG38 [12] phi from print::@2 to print::@1 [phi:print::@2->print::@1]
//SEG39 [12] phi (byte*) screen#12 = (byte*) screen#5 [phi:print::@2->print::@1#0] -- register_copy
//SEG40 [12] phi (byte*) print::string#4 = (byte*) print::string#3 [phi:print::@2->print::@1#1] -- register_copy
jmp b1
}

24
src/test/ref/string-const-consolidation-noroot.sym Normal file
View File

@ -0,0 +1,24 @@
(label) @2
(label) @begin
(label) @end
(void()) main()
(label) main::@1
(label) main::@2
(label) main::@return
(byte[]) main::rex1
(byte[]) main::rex2
(const string) main::string string = (string) "rex@"
(void()) print((byte*) print::string)
(label) print::@1
(label) print::@2
(label) print::@return
(byte*) print::string
(byte*) print::string#3 string zp ZP_WORD:4 22.0
(byte*) print::string#4 string zp ZP_WORD:4 11.0
(byte*) screen
(byte*) screen#12 screen zp ZP_WORD:2 4.875
(byte*) screen#18 screen zp ZP_WORD:2 6.0
(byte*) screen#5 screen zp ZP_WORD:2 11.0
zp ZP_WORD:2 [ screen#18 screen#12 screen#5 ]
zp ZP_WORD:4 [ print::string#4 print::string#3 ]