int main(int argc, char** args){
_DECL_1DARRAY_BYTE(input);
_DECL_1DARRAY_BYTE(arr);
_DECL_1DARRAY_BYTE(arr1);
BYTE _4;
BYTE _5;
BYTE _6;
_DECL_1DARRAY_BYTE(_7);
_DECL_1DARRAY_BYTE(_8);
_DECL_1DARRAY_BYTE(_9);
void* _10;
void* _12;
//const %4 = 01100001b : byte
_4 = 0b01100001;
//const %5 = 01100010b : byte
_5 = 0b01100010;
//const %6 = 01100011b : byte
_6 = 0b01100011;
//newlist %7 = (%4, %5, %6) : byte[]
_NEW_1DARRAY_BYTE(_7, 3, 0b0);
_7[0] = _4; _7[1] = _5; _7[2] = _6;
//assign %1 = %7 : byte[]
_COPY_1DARRAY_BYTE(input, _7);
//invoke (%8) = (%1) appendarray1:f_append : function(byte[])->(byte[])
{
void* tmp_input;
_COPY_1DARRAY_PARAM(input, tmp_input, BYTE);
_8 = _f_append_(tmp_input, input_size, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_8));
}
//assign %2 = %8 : byte[]
_COPY_1DARRAY_BYTE(arr, _8);
//invoke (%9) = (%1) appendarray1:f_resize : function(byte[])->(byte[])
{
void* tmp_input;
_COPY_1DARRAY_PARAM(input, tmp_input, BYTE);
_9 = _f_resize_(tmp_input, input_size, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_9));
}
//assign %3 = %9 : byte[]
_COPY_1DARRAY_BYTE(arr1, _9);
//fieldload %10 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %11 = %10 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//indirectinvoke () = %11 (%2) : method(any)->()
{
_PRINT_1DARRAY_BYTE(arr);
}
//fieldload %12 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %13 = %12 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//indirectinvoke () = %13 (%3) : method(any)->()
{
_PRINT_1DARRAY_BYTE(arr1);
}
//return
exit(0);
}
int main(int argc, char** args){
_DECL_1DARRAY(empty);
_DECL_1DARRAY(till);
_DECL_1DARRAY(_3);
_DECL_1DARRAY(_4);
int64_t _5;
int64_t _6;
int64_t _7;
int64_t _8;
int64_t _9;
int64_t _10;
int64_t _11;
int64_t _12;
_DECL_1DARRAY(_13);
//invoke (%3) = () FunctionOverload2:Cash : function()->(FunctionOverload2:Cash)
{
_3 = _Cash_(_1DARRAYSIZE_PARAM_CALLBYREFERENCE(_3));
}
//assign %1 = %3 : int[]
_COPY_1DARRAY_int64_t(empty, _3);
//const %5 = 5 : int
_5 = 5;
//const %6 = 3 : int
_6 = 3;
//const %7 = 3 : int
_7 = 3;
//const %8 = 1 : int
_8 = 1;
//const %9 = 1 : int
_9 = 1;
//const %10 = 3 : int
_10 = 3;
//const %11 = 0 : int
_11 = 0;
//const %12 = 0 : int
_12 = 0;
//newlist %13 = (%5, %6, %7, %8, %9, %10, %11, %12) : int[]
_NEW_1DARRAY_int64_t(_13, 8, 0);
_13[0] = _5; _13[1] = _6; _13[2] = _7; _13[3] = _8; _13[4] = _9; _13[5] = _10; _13[6] = _11; _13[7] = _12;
//invoke (%4) = (%13) FunctionOverload2:Cash : function(FunctionOverload2:nat[])->(FunctionOverload2:Cash)
{
void* tmp_coins;
_COPY_1DARRAY_PARAM(_13, tmp_coins, int64_t);
_4 = _Cash_1_(tmp_coins, _13_size, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_4));
}
//assign %2 = %4 : int[]
_COPY_1DARRAY_int64_t(till, _4);
//return
exit(0);
}
int main(int argc, char** args){
_DECL_1DARRAY_BYTE(data);
_DECL_1DARRAY_BYTE(arr);
BYTE _3;
BYTE _4;
BYTE _5;
_DECL_1DARRAY_BYTE(_6);
_DECL_1DARRAY_BYTE(_7);
BYTE _8;
BYTE _9;
BYTE _10;
BYTE _11;
BYTE _12;
BYTE _13;
_DECL_1DARRAY_BYTE(_14);
void* _15;
int64_t _17;
//const %3 = 01100001b : byte
_3 = 0b01100001;
//const %4 = 01100010b : byte
_4 = 0b01100010;
//const %5 = 01100011b : byte
_5 = 0b01100011;
//newlist %6 = (%3, %4, %5) : byte[]
_NEW_1DARRAY_BYTE(_6, 3, 0b0);
_6[0] = _3; _6[1] = _4; _6[2] = _5;
//assign %1 = %6 : byte[]
_COPY_1DARRAY_BYTE(data, _6);
//invoke (%7) = (%1) appendarray:f : function(byte[])->(byte[])
{
void* tmp_data;
_COPY_1DARRAY_PARAM(data, tmp_data, BYTE);
_7 = _f_(tmp_data, data_size, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_7));
}
//assign %2 = %7 : byte[]
_COPY_1DARRAY_BYTE(arr, _7);
//fieldload %15 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %16 = %15 print : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//lengthof %17 = %2 : byte[]
_17 = arr_size;
//indirectinvoke () = %16 (%17) : method(any)->()
{
printf("%"PRId64, _17);
}
//return
exit(0);
}
int main(int argc, char** args){
FILE* file;
_DECL_1DARRAY_BYTE(data);
_DECL_DEALLOC(data);
_DECL_1DARRAY_BYTE(compress_data);
_DECL_DEALLOC(compress_data);
FILE* writer;
_DECL_1DARRAY_BYTE(decompress_data);
_DECL_DEALLOC(decompress_data);
void* _6;
_DECL_DEALLOC(_6);
_DECL_1DARRAY(_7);
_DECL_DEALLOC(_7);
_DECL_1DARRAY_BYTE(_8);
_DECL_DEALLOC(_8);
void* _10;
_DECL_1DARRAY(_12);
_DECL_DEALLOC(_12);
void* _13;
_DECL_1DARRAY(_15);
_DECL_DEALLOC(_15);
void* _16;
int64_t _18;
void* _19;
_DECL_1DARRAY(_21);
_DECL_DEALLOC(_21);
_DECL_1DARRAY_BYTE(_22);
_DECL_DEALLOC(_22);
void* _23;
_DECL_1DARRAY(_25);
_DECL_DEALLOC(_25);
void* _26;
int64_t _28;
void* _29;
_DECL_1DARRAY(_31);
_DECL_DEALLOC(_31);
void* _32;
_DECL_DEALLOC(_32);
_DECL_1DARRAY(_33);
_DECL_DEALLOC(_33);
int64_t _34;
_DECL_1DARRAY_BYTE(_37);
_DECL_DEALLOC(_37);
void* _38;
_DECL_1DARRAY(_40);
_DECL_DEALLOC(_40);
void* _41;
_DECL_1DARRAY(_43);
_DECL_DEALLOC(_43);
void* _44;
int64_t _46;
void* _47;
_DECL_1DARRAY(_49);
_DECL_DEALLOC(_49);
//const %7 = [105,110,112,117,116,50,120,46,105,110] : int[]
_DEALLOC(_7);
_NEW_1DARRAY_int64_t(_7, 10, 0);
_7[0] = 105; _7[1] = 110; _7[2] = 112; _7[3] = 117; _7[4] = 116; _7[5] = 50; _7[6] = 120; _7[7] = 46; _7[8] = 105; _7[9] = 110;
_ADD_DEALLOC(_7);
//invoke (%6) = (%7) whiley/io/File:Reader : method(whiley/lang/ASCII:string)->(whiley/io/File:Reader)
{
_6 = Reader(_7, _7_size);
}
//assign %1 = %6 : {method()->(int) available,method()->() close,method()->(bool) hasMore,method(int)->(byte[]) read,method()->(byte[]) readAll}
file = _6;
//fieldload %9 = %1 readAll : {method()->(int) available,method()->() close,method()->(bool) hasMore,method(int)->(byte[]) read,method()->(byte[]) readAll}
//indirectinvoke (%8) = %9 () : method()->(byte[])
{
_8 = readAll(file, &_8_size);
_ADD_DEALLOC(_8);
}
//assign %2 = %8 : byte[]
_DEALLOC(data);
_COPY_1DARRAY_BYTE(data, _8);
_ADD_DEALLOC(data);
//fieldload %10 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %11 = %10 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %12 = [68,97,116,97,58,32,32,32,32,32,32,32,32,32] : int[]
_DEALLOC(_12);
_NEW_1DARRAY_int64_t(_12, 14, 0);
_12[0] = 68; _12[1] = 97; _12[2] = 116; _12[3] = 97; _12[4] = 58; _12[5] = 32; _12[6] = 32; _12[7] = 32; _12[8] = 32; _12[9] = 32; _12[10] = 32; _12[11] = 32; _12[12] = 32; _12[13] = 32;
_ADD_DEALLOC(_12);
//indirectinvoke () = %11 (%12) : method(int[])->()
{
println_s(_12, _12_size);
}
//fieldload %13 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %14 = %13 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//invoke (%15) = (%2) whiley/lang/ASCII:fromBytes : function(byte[])->(whiley/lang/ASCII:string)
{
_DEALLOC(_15);
_15 = fromBytes(data, data_size);
_15_size = data_size;
_ADD_DEALLOC(_15);
}
//indirectinvoke () = %14 (%15) : method(int[])->()
{
println_s(_15, _15_size);
}
//fieldload %16 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %17 = %16 print : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//lengthof %18 = %2 : byte[]
_18 = data_size;
//indirectinvoke () = %17 (%18) : method(any)->()
{
printf("%"PRId64, _18);
}
//fieldload %19 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %20 = %19 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %21 = [32,98,121,116,101,115] : int[]
_DEALLOC(_21);
_NEW_1DARRAY_int64_t(_21, 6, 0);
_21[0] = 32; _21[1] = 98; _21[2] = 121; _21[3] = 116; _21[4] = 101; _21[5] = 115;
_ADD_DEALLOC(_21);
//indirectinvoke () = %20 (%21) : method(int[])->()
{
println_s(_21, _21_size);
}
//invoke (%22) = (%2) lz77_compress:compress : function(byte[])->(byte[])
{
void* tmp_data;
_COPY_1DARRAY_PARAM(data, tmp_data, BYTE);
_DEALLOC(_22);
_22 = _compress_(tmp_data, data_size, true, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_22));
_CALLEE_DEALLOC(data, "false-false-false" , "compress");
_CALLEE_DEALLOC_POST(_22, data);
}
//assign %3 = %22 : byte[]
_DEALLOC(compress_data);
_COPY_1DARRAY_BYTE(compress_data, _22);
_ADD_DEALLOC(compress_data);
//fieldload %23 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %24 = %23 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %25 = [67,79,77,80,82,69,83,83,69,68,32,68,97,116,97,58,32,32,32] : int[]
_DEALLOC(_25);
_NEW_1DARRAY_int64_t(_25, 19, 0);
_25[0] = 67; _25[1] = 79; _25[2] = 77; _25[3] = 80; _25[4] = 82; _25[5] = 69; _25[6] = 83; _25[7] = 83; _25[8] = 69; _25[9] = 68; _25[10] = 32; _25[11] = 68; _25[12] = 97; _25[13] = 116; _25[14] = 97; _25[15] = 58; _25[16] = 32; _25[17] = 32; _25[18] = 32;
_ADD_DEALLOC(_25);
//indirectinvoke () = %24 (%25) : method(int[])->()
{
println_s(_25, _25_size);
}
//fieldload %26 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %27 = %26 print : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//lengthof %28 = %3 : byte[]
_28 = compress_data_size;
//indirectinvoke () = %27 (%28) : method(any)->()
{
printf("%"PRId64, _28);
}
//fieldload %29 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %30 = %29 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %31 = [32,98,121,116,101,115] : int[]
_DEALLOC(_31);
_NEW_1DARRAY_int64_t(_31, 6, 0);
_31[0] = 32; _31[1] = 98; _31[2] = 121; _31[3] = 116; _31[4] = 101; _31[5] = 115;
_ADD_DEALLOC(_31);
//indirectinvoke () = %30 (%31) : method(int[])->()
{
println_s(_31, _31_size);
}
//const %33 = [115,109,97,108,108,46,100,97,116] : int[]
_DEALLOC(_33);
_NEW_1DARRAY_int64_t(_33, 9, 0);
_33[0] = 115; _33[1] = 109; _33[2] = 97; _33[3] = 108; _33[4] = 108; _33[5] = 46; _33[6] = 100; _33[7] = 97; _33[8] = 116;
_ADD_DEALLOC(_33);
//invoke (%32) = (%33) whiley/io/File:Writer : method(whiley/lang/ASCII:string)->(whiley/io/File:Writer)
{
_32 = Writer(_33, _33_size);
}
//assign %4 = %32 : {method()->() close,method()->() flush,method(byte[])->(int) write,...}
writer = _32;
//fieldload %35 = %4 write : {method()->() close,method()->() flush,method(byte[])->(int) write,...}
//indirectinvoke (%34) = %35 (%3) : method(byte[])->(int)
{
writeAll(writer, compress_data, compress_data_size);
}
//fieldload %36 = %4 close : {method()->() close,method()->() flush,method(byte[])->(int) write,...}
//indirectinvoke () = %36 () : method()->()
{
fclose(writer);
writer = NULL;
}
//invoke (%37) = (%3) lz77_compress:decompress : function(byte[])->(byte[])
{
void* tmp_data;
_COPY_1DARRAY_PARAM(compress_data, tmp_data, BYTE);
_DEALLOC(_37);
_37 = _decompress_(tmp_data, compress_data_size, true, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_37));
_CALLEE_DEALLOC(compress_data, "false-false-false" , "decompress");
_CALLEE_DEALLOC_POST(_37, compress_data);
}
//assign %5 = %37 : byte[]
_DEALLOC(decompress_data);
_COPY_1DARRAY_BYTE(decompress_data, _37);
_ADD_DEALLOC(decompress_data);
//fieldload %38 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %39 = %38 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %40 = [68,69,67,79,77,80,82,69,83,83,69,68,58,32,32,32] : int[]
_DEALLOC(_40);
_NEW_1DARRAY_int64_t(_40, 16, 0);
_40[0] = 68; _40[1] = 69; _40[2] = 67; _40[3] = 79; _40[4] = 77; _40[5] = 80; _40[6] = 82; _40[7] = 69; _40[8] = 83; _40[9] = 83; _40[10] = 69; _40[11] = 68; _40[12] = 58; _40[13] = 32; _40[14] = 32; _40[15] = 32;
_ADD_DEALLOC(_40);
//indirectinvoke () = %39 (%40) : method(int[])->()
{
println_s(_40, _40_size);
}
//fieldload %41 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %42 = %41 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//invoke (%43) = (%5) whiley/lang/ASCII:fromBytes : function(byte[])->(whiley/lang/ASCII:string)
{
_DEALLOC(_43);
_43 = fromBytes(decompress_data, decompress_data_size);
_43_size = decompress_data_size;
_ADD_DEALLOC(_43);
}
//indirectinvoke () = %42 (%43) : method(int[])->()
{
println_s(_43, _43_size);
}
//fieldload %44 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %45 = %44 print : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//lengthof %46 = %5 : byte[]
_46 = decompress_data_size;
//indirectinvoke () = %45 (%46) : method(any)->()
{
printf("%"PRId64, _46);
}
//fieldload %47 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %48 = %47 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %49 = [32,98,121,116,101,115] : int[]
_DEALLOC(_49);
_NEW_1DARRAY_int64_t(_49, 6, 0);
_49[0] = 32; _49[1] = 98; _49[2] = 121; _49[3] = 116; _49[4] = 101; _49[5] = 115;
_ADD_DEALLOC(_49);
//indirectinvoke () = %48 (%49) : method(int[])->()
{
println_s(_49, _49_size);
}
//return
if(file != NULL){fclose(file); file = NULL;}
_DEALLOC(data);
_DEALLOC(compress_data);
if(writer != NULL){fclose(writer); writer = NULL;}
_DEALLOC(decompress_data);
_DEALLOC(_7);
_DEALLOC(_8);
_DEALLOC(_12);
_DEALLOC(_15);
_DEALLOC(_21);
_DEALLOC(_22);
_DEALLOC(_25);
_DEALLOC(_31);
_DEALLOC(_33);
_DEALLOC(_37);
_DEALLOC(_40);
_DEALLOC(_43);
_DEALLOC(_49);
exit(0);
}
BYTE* _decompress_(BYTE* data, size_t data_size, _DECL_DEALLOC_PARAM(data), _DECL_1DARRAYSIZE_PARAM_CALLBYREFERENCE){
_DECL_1DARRAY_BYTE(output);
_DECL_DEALLOC(output);
int64_t pos;
BYTE header;
BYTE item;
int64_t offset;
int64_t len;
int64_t start;
int64_t i;
BYTE _9;
int64_t _10;
_DECL_1DARRAY_BYTE(_11);
_DECL_DEALLOC(_11);
int64_t _12;
int64_t _13;
int64_t _14;
int64_t _15;
BYTE _16;
int64_t _17;
int64_t _18;
BYTE _19;
int64_t _20;
int64_t _21;
BYTE _22;
_DECL_1DARRAY_BYTE(_23);
_DECL_DEALLOC(_23);
int64_t _24;
int64_t _25;
int64_t _26;
int64_t _27;
int64_t _28;
BYTE _29;
_DECL_1DARRAY_BYTE(_30);
_DECL_DEALLOC(_30);
int64_t _31;
int64_t _32;
//const %9 = 00000000b : byte
_9 = 0b00000000;
//const %10 = 0 : int
_10 = 0;
//arraygen %11 = [9; 10] : byte[]
_DEALLOC(_11);
_NEW_1DARRAY_BYTE(_11, _10, _9);
_ADD_DEALLOC(_11);
//assign %1 = %11 : byte[]
_DEALLOC(output);
_COPY_1DARRAY_BYTE(output, _11);
_ADD_DEALLOC(output);
//const %12 = 0 : int
_12 = 0;
//assign %2 = %12 : int
pos = _12;
//loop (%1, %2, %3, %4, %5, %6, %7, %8, %13, %14, %15, %16, %17, %18, %19, %20, %21, %22, %23, %24, %25, %26, %27, %28, %29, %30, %31, %32)
while(true){
//const %13 = 1 : int
_13 = 1;
//add %14 = %2, %13 : int
_14=pos+_13;
//lengthof %15 = %0 : byte[]
_15 = data_size;
//ifge %14, %15 goto blklab16 : int
if(_14>=_15){goto blklab16;}
//indexof %16 = %0, %2 : byte[]
_16=data[pos];
//assign %3 = %16 : byte
header = _16;
//const %17 = 1 : int
_17 = 1;
//add %18 = %2, %17 : int
_18=pos+_17;
//indexof %19 = %0, %18 : byte[]
_19=data[_18];
//assign %4 = %19 : byte
item = _19;
//const %20 = 2 : int
_20 = 2;
//add %21 = %2, %20 : int
_21=pos+_20;
//assign %2 = %21 : int
pos = _21;
//const %22 = 00000000b : byte
_22 = 0b00000000;
//ifne %3, %22 goto blklab18 : byte
if(header!=_22){goto blklab18;}
//invoke (%23) = (%1, %4) lz77_compress:append : function(byte[],byte)->(byte[])
{
void* tmp_items;
_COPY_1DARRAY_PARAM(output, tmp_items, BYTE);
_DEALLOC(_23);
_23 = _append_(tmp_items, output_size, true, item, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_23));
_CALLEE_DEALLOC(output, "false-false-false" , "append");
_CALLEE_DEALLOC_POST(_23, output);
}
//assign %1 = %23 : byte[]
_DEALLOC(output);
_COPY_1DARRAY_BYTE(output, _23);
_ADD_DEALLOC(output);
//goto blklab19
goto blklab19;
//.blklab18
blklab18:;
//invoke (%24) = (%3) whiley/lang/Byte:toUnsignedInt : function(byte)->(whiley/lang/Int:uint)
{
_24 = (unsigned int)header;
}
//assign %5 = %24 : int
offset = _24;
//invoke (%25) = (%4) whiley/lang/Byte:toUnsignedInt : function(byte)->(whiley/lang/Int:uint)
{
_25 = (unsigned int)item;
}
//assign %6 = %25 : int
len = _25;
//lengthof %26 = %1 : byte[]
_26 = output_size;
//sub %27 = %26, %5 : int
_27=_26-offset;
//assign %7 = %27 : int
start = _27;
//assign %8 = %7 : int
i = start;
//loop (%1, %4, %8, %28, %29, %30, %31, %32)
while(true){
//add %28 = %7, %6 : int
_28=start+len;
//ifge %8, %28 goto blklab20 : int
if(i>=_28){goto blklab20;}
//indexof %29 = %1, %8 : byte[]
_29=output[i];
//assign %4 = %29 : byte
item = _29;
//invoke (%30) = (%1, %4) lz77_compress:append : function(byte[],byte)->(byte[])
{
void* tmp_items;
_COPY_1DARRAY_PARAM(output, tmp_items, BYTE);
_DEALLOC(_30);
_30 = _append_(tmp_items, output_size, true, item, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_30));
_CALLEE_DEALLOC(output, "false-false-false" , "append");
_CALLEE_DEALLOC_POST(_30, output);
}
//assign %1 = %30 : byte[]
_DEALLOC(output);
_COPY_1DARRAY_BYTE(output, _30);
_ADD_DEALLOC(output);
//const %31 = 1 : int
_31 = 1;
//add %32 = %8, %31 : int
_32=i+_31;
//assign %8 = %32 : int
i = _32;
//.blklab21
blklab21:;
}
//.blklab20
blklab20:;
//.blklab19
blklab19:;
//.blklab17
blklab17:;
}
//.blklab16
blklab16:;
//return %1
_DEALLOC(data);
_DEALLOC(_11);
_DEALLOC(_23);
_DEALLOC(_30);
_UPDATE_1DARRAYSZIE_PARAM_CALLBYREFERENCE(output);
return output;
//return
}
int main(int argc, char** args){
_DECL_1DARRAY(x);
_DECL_1DARRAY(tmp);
int64_t _3;
int64_t _4;
_DECL_1DARRAY(_5);
_DECL_1DARRAY(_6);
int64_t _7;
int64_t _8;
int64_t _9;
int64_t _10;
void* _11;
_DECL_1DARRAY(_13);
void* _14;
int64_t _16;
int64_t _17;
//const %3 = 2 : int
_3 = 2;
//const %4 = 3 : int
_4 = 3;
//arraygen %5 = [3; 4] : int[]
_NEW_1DARRAY_int64_t(_5, _4, _3);
//assign %1 = %5 : int[]
_COPY_1DARRAY_int64_t(x, _5);
//const %7 = 11 : int
_7 = 11;
//invoke (%6) = (%1, %7) ResetMacro1:func : function(int[],int)->(int[])
{
void* tmp_x;
_COPY_1DARRAY_PARAM(x, tmp_x, int64_t);
_6 = _func_(tmp_x, x_size, _7, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_6));
}
//assign %2 = %6 : int[]
_COPY_1DARRAY_int64_t(tmp, _6);
//assign %1 = %2 : int[]
_COPY_1DARRAY_int64_t(x, tmp);
//assert
{
//const %8 = 0 : int
_8 = 0;
//indexof %9 = %1, %8 : int[]
_9=x[_8];
//const %10 = 11 : int
_10 = 11;
//ifeq %9, %10 goto blklab0 : int
if(_9==_10){goto blklab0;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab0
blklab0:;
//assert
}
//fieldload %11 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %12 = %11 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %13 = [120,91,48,93,32,61,32] : int[]
_NEW_1DARRAY_int64_t(_13, 7, 0);
_13[0] = 120; _13[1] = 91; _13[2] = 48; _13[3] = 93; _13[4] = 32; _13[5] = 61; _13[6] = 32;
//indirectinvoke () = %12 (%13) : method(int[])->()
{
printf_s(_13, _13_size);
}
//fieldload %14 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %15 = %14 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %16 = 0 : int
_16 = 0;
//indexof %17 = %1, %16 : int[]
_17=x[_16];
//indirectinvoke () = %15 (%17) : method(any)->()
{
printf("%"PRId64"\n", _17);
}
//return
exit(0);
}
int main(int argc, char** args){
_DECL_1DARRAY(a);
_DECL_DEALLOC(a);
_DECL_1DARRAY(b);
_DECL_DEALLOC(b);
_DECL_1DARRAY(r);
_DECL_DEALLOC(r);
int64_t _4;
int64_t _5;
_DECL_1DARRAY(_6);
_DECL_DEALLOC(_6);
int64_t _7;
int64_t _8;
_DECL_1DARRAY(_9);
_DECL_DEALLOC(_9);
_DECL_1DARRAY(_10);
_DECL_DEALLOC(_10);
void* _11;
int64_t _13;
int64_t _14;
void* _15;
int64_t _17;
int64_t _18;
//const %4 = 2 : int
_4 = 2;
//const %5 = 2 : int
_5 = 2;
//arraygen %6 = [4; 5] : int[]
_NEW1DARRAY_DEALLOC(_6, _4, _5, int64_t);
//assign %1 = %6 : int[]
// isCopyEliminated = true
_TRANSFER_DEALLOC(a, _6);
//const %7 = 2 : int
_7 = 2;
//const %8 = 2 : int
_8 = 2;
//arraygen %9 = [7; 8] : int[]
_NEW1DARRAY_DEALLOC(_9, _7, _8, int64_t);
//assign %2 = %9 : int[]
// isCopyEliminated = true
_TRANSFER_DEALLOC(b, _9);
//invoke (%10) = (%1, %2) 2parameter_test4:func : function(int[],int[])->(int[])
{
_FUNCTIONCALL_NO_COPY_PRE(_10, b, "false-NEVER_RETURN-true" , "func");
_FUNCTIONCALL_COPY_PRE(_10, a, "false-MAYBE_RETURN-true" , "func");
_DEALLOC(_10);
void* tmp_a;
_COPY_1DARRAY_PARAM(a, tmp_a, int64_t);
// isCopyEliminated of '_1' = false
// isCopyEliminated of '_2' = true
_10 = _func_(tmp_a, a_size, b, b_size, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_10));
if( _10 == tmp_a ){
_10_dealloc = true;
} else {
_10_dealloc = true;
free(tmp_a);
}
}
//assign %3 = %10 : int[]
// isCopyEliminated = true
_TRANSFER_DEALLOC(r, _10);
//fieldload %11 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %12 = %11 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %13 = 0 : int
_13 = 0;
//indexof %14 = %1, %13 : int[]
_14=a[_13];
//indirectinvoke () = %12 (%14) : method(any)->()
{
printf("%"PRId64"\n", _14);
}
//fieldload %15 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %16 = %15 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %17 = 0 : int
_17 = 0;
//indexof %18 = %2, %17 : int[]
_18=b[_17];
//indirectinvoke () = %16 (%18) : method(any)->()
{
printf("%"PRId64"\n", _18);
}
//return
_DEALLOC(a);
_DEALLOC(b);
_DEALLOC(r);
_DEALLOC(_6);
_DEALLOC(_9);
_DEALLOC(_10);
exit(0);
}
BYTE* _f_(BYTE* data, size_t data_size, _DECL_1DARRAYSIZE_PARAM_CALLBYREFERENCE){
_DECL_1DARRAY_BYTE(output);
int64_t pos;
BYTE item;
BYTE length;
int64_t _5;
BYTE _6;
int64_t _7;
_DECL_1DARRAY_BYTE(_8);
int64_t _9;
BYTE _10;
BYTE _11;
int64_t _12;
int64_t _13;
_DECL_1DARRAY_BYTE(_14);
_DECL_1DARRAY_BYTE(_15);
int64_t _16;
int64_t _17;
int64_t _18;
int64_t _19;
int64_t _20;
int64_t _21;
int64_t _22;
int64_t _23;
int64_t _24;
_DECL_1DARRAY_BYTE(_25);
//const %5 = 0 : int
_5 = 0;
//assign %2 = %5 : int
pos = _5;
//const %6 = 00000000b : byte
_6 = 0b00000000;
//const %7 = 0 : int
_7 = 0;
//const %16 = 2 : int
_16 = 2;
//lengthof %17 = %0 : byte[]
_17 = data_size;
//mul %18 = %16, %17 : int
_18=_16*_17;
//arraygen %8 = [6; 18] : byte[]
_NEW_1DARRAY_BYTE(_8, _18, _6);
//const %19 = 0 : int
_19 = 0;
//assign %20 = %19 : int
_20 = _19;
//assign %1 = %8 : byte[]
_COPY_1DARRAY_BYTE(output, _8);
//loop (%1, %2, %3, %4, %9, %10, %11, %12, %13, %14, %15, %20)
while(true){
//lengthof %9 = %0 : byte[]
_9 = data_size;
//ifge %2, %9 goto blklab7 : int
if(pos>=_9){goto blklab7;}
//indexof %10 = %0, %2 : byte[]
_10=data[pos];
//assign %3 = %10 : byte
item = _10;
//invoke (%11) = (%2) whiley/lang/Int:toUnsignedByte : function(whiley/lang/Int:u8)->(byte)
{
_11 = (BYTE)pos;
}
//assign %4 = %11 : byte
length = _11;
//const %12 = 1 : int
_12 = 1;
//add %13 = %2, %12 : int
_13=pos+_12;
//assign %2 = %13 : int
pos = _13;
//update %1[%20] = %4 : byte[] -> byte[]
output[_20] = length;
//const %21 = 1 : int
_21 = 1;
//add %22 = %20, %21 : int
_22=_20+_21;
//assign %20 = %22 : int
_20 = _22;
//update %1[%20] = %3 : byte[] -> byte[]
output[_20] = item;
//const %23 = 1 : int
_23 = 1;
//add %24 = %20, %23 : int
_24=_20+_23;
//assign %20 = %24 : int
_20 = _24;
//.blklab8
blklab8:;
}
//.blklab7
blklab7:;
//invoke (%25) = (%1, %20) appendarray:resize : function(byte[],int)->(byte[])
{
void* tmp_items;
_COPY_1DARRAY_PARAM(output, tmp_items, BYTE);
_25 = _resize_(tmp_items, output_size, _20, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_25));
}
//assign %1 = %25 : byte[]
_COPY_1DARRAY_BYTE(output, _25);
//return %1
_UPDATE_1DARRAYSZIE_PARAM_CALLBYREFERENCE(output);
return output;
//return
}
int main(int argc, char** args){
int64_t* max;
int64_t n;
_DECL_1DARRAY(coins);
int64_t i;
_DECL_1DARRAY(moves);
int64_t sum_alice;
int64_t* _7;
_DECL_2DARRAY(_8);
int64_t _9;
_DECL_1DARRAY(_10);
int64_t _11;
_DECL_1DARRAY(_12);
int64_t _13;
int64_t _14;
int64_t _15;
int64_t _16;
int64_t _17;
int64_t _18;
int64_t _19;
int64_t _20;
int64_t _21;
int64_t _22;
int64_t _23;
_DECL_1DARRAY(_24);
_DECL_1DARRAY(_25);
int64_t _26;
int64_t _27;
int64_t _28;
void* _29;
_DECL_1DARRAY(_31);
void* _32;
void* _34;
_DECL_1DARRAY(_36);
//fieldload %8 = %0 args : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
_CONV_ARGS(_8);
//const %9 = 0 : int
_9 = 0;
//indexof %10 = %8, %9 : int[][]
_10=_8[_9];
_10_size = _8_size_size;
//invoke (%7) = (%10) whiley/lang/Int:parse : function(whiley/lang/ASCII:string)->(null|int)
{
_STR_TO_INT(_7, _10);
}
//assign %1 = %7 : null|int
_NEW_INTEGER_POINTER(max, _7);
//ifis %1, null goto blklab4 : null|int
if(max == NULL) { goto blklab4;}
//assign %2 = %1 : int
n = *max;
//const %11 = 0 : int
_11 = 0;
//arraygen %12 = [11; 2] : int[]
_NEW_1DARRAY_int64_t(_12, n, _11);
//assign %3 = %12 : int[]
_COPY_1DARRAY_int64_t(coins, _12);
//const %13 = 0 : int
_13 = 0;
//assign %4 = %13 : int
i = _13;
//loop (%3, %4, %14, %15, %16, %17)
while(true){
//ifge %4, %2 goto blklab5 : int
if(i>=n){goto blklab5;}
//const %14 = 5 : int
_14 = 5;
//rem %15 = %4, %14 : int
_15=i%_14;
//update %3[%4] = %15 : int[] -> int[]
coins[i] = _15;
//const %16 = 1 : int
_16 = 1;
//add %17 = %4, %16 : int
_17=i+_16;
//assign %4 = %17 : int
i = _17;
//.blklab6
blklab6:;
}
//.blklab5
blklab5:;
//const %18 = 0 : int
_18 = 0;
//const %19 = 2 : int
_19 = 2;
//add %20 = %2, %19 : int
_20=n+_19;
//const %21 = 2 : int
_21 = 2;
//add %22 = %2, %21 : int
_22=n+_21;
//mul %23 = %20, %22 : int
_23=_20*_22;
//arraygen %24 = [18; 23] : int[]
_NEW_1DARRAY_int64_t(_24, _23, _18);
//assign %5 = %24 : int[]
_COPY_1DARRAY_int64_t(moves, _24);
//invoke (%25) = (%5, %2, %3) CoinGame_original:findMoves : function(int[],int,int[])->(int[])
{
void* tmp_moves;
_COPY_1DARRAY_PARAM(moves, tmp_moves, int64_t);
void* tmp_coins;
_COPY_1DARRAY_PARAM(coins, tmp_coins, int64_t);
_25 = _findMoves_(tmp_moves, moves_size, n, tmp_coins, coins_size, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_25));
}
//assign %5 = %25 : int[]
_COPY_1DARRAY_int64_t(moves, _25);
//const %26 = 1 : int
_26 = 1;
//sub %27 = %2, %26 : int
_27=n-_26;
//indexof %28 = %5, %27 : int[]
_28=moves[_27];
//assign %6 = %28 : int
sum_alice = _28;
//fieldload %29 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %30 = %29 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %31 = [84,104,101,32,116,111,116,97,108,32,97,109,111,117,110,116,32,111,102,32,109,111,110,101,121,32,40,109,97,120,105,109,117,109,41,32,65,108,105,99,101,32,103,101,116,115,32,105,115,32] : int[]
_NEW_1DARRAY_int64_t(_31, 50, 0);
_31[0] = 84; _31[1] = 104; _31[2] = 101; _31[3] = 32; _31[4] = 116; _31[5] = 111; _31[6] = 116; _31[7] = 97; _31[8] = 108; _31[9] = 32; _31[10] = 97; _31[11] = 109; _31[12] = 111; _31[13] = 117; _31[14] = 110; _31[15] = 116; _31[16] = 32; _31[17] = 111; _31[18] = 102; _31[19] = 32; _31[20] = 109; _31[21] = 111; _31[22] = 110; _31[23] = 101; _31[24] = 121; _31[25] = 32; _31[26] = 40; _31[27] = 109; _31[28] = 97; _31[29] = 120; _31[30] = 105; _31[31] = 109; _31[32] = 117; _31[33] = 109; _31[34] = 41; _31[35] = 32; _31[36] = 65; _31[37] = 108; _31[38] = 105; _31[39] = 99; _31[40] = 101; _31[41] = 32; _31[42] = 103; _31[43] = 101; _31[44] = 116; _31[45] = 115; _31[46] = 32; _31[47] = 105; _31[48] = 115; _31[49] = 32;
//indirectinvoke () = %30 (%31) : method(int[])->()
{
printf_s(_31, _31_size);
}
//fieldload %32 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %33 = %32 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//indirectinvoke () = %33 (%6) : method(any)->()
{
printf("%"PRId64"\n", sum_alice);
}
//fieldload %34 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %35 = %34 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %36 = [80,97,115,115,32,67,111,105,110,71,97,109,101,32,116,101,115,116,32,99,97,115,101] : int[]
_NEW_1DARRAY_int64_t(_36, 23, 0);
_36[0] = 80; _36[1] = 97; _36[2] = 115; _36[3] = 115; _36[4] = 32; _36[5] = 67; _36[6] = 111; _36[7] = 105; _36[8] = 110; _36[9] = 71; _36[10] = 97; _36[11] = 109; _36[12] = 101; _36[13] = 32; _36[14] = 116; _36[15] = 101; _36[16] = 115; _36[17] = 116; _36[18] = 32; _36[19] = 99; _36[20] = 97; _36[21] = 115; _36[22] = 101;
//indirectinvoke () = %35 (%36) : method(int[])->()
{
println_s(_36, _36_size);
}
//.blklab4
blklab4:;
//return
exit(0);
}
int main(int argc, char** args){
_DECL_1DARRAY(a);
_DECL_DEALLOC(a);
_DECL_1DARRAY(b);
_DECL_DEALLOC(b);
_DECL_1DARRAY(c);
_DECL_DEALLOC(c);
_DECL_1DARRAY(r);
_DECL_DEALLOC(r);
int64_t _5;
int64_t _6;
_DECL_1DARRAY(_7);
_DECL_DEALLOC(_7);
int64_t _8;
int64_t _9;
_DECL_1DARRAY(_10);
_DECL_DEALLOC(_10);
int64_t _11;
int64_t _12;
_DECL_1DARRAY(_13);
_DECL_DEALLOC(_13);
_DECL_1DARRAY(_14);
_DECL_DEALLOC(_14);
int64_t _15;
int64_t _16;
int64_t _17;
int64_t _18;
int64_t _19;
int64_t _20;
int64_t _21;
int64_t _22;
int64_t _23;
int64_t _24;
int64_t _25;
int64_t _26;
//const %5 = 1 : int
_5 = 1;
//const %6 = 2 : int
_6 = 2;
//arraygen %7 = [5; 6] : int[]
_NEW1DARRAY_DEALLOC(_7, _5, _6, int64_t);
//assign %1 = %7 : int[]
// isCopyEliminated = true
_TRANSFER_DEALLOC(a, _7);
//const %8 = 2 : int
_8 = 2;
//const %9 = 2 : int
_9 = 2;
//arraygen %10 = [8; 9] : int[]
_NEW1DARRAY_DEALLOC(_10, _8, _9, int64_t);
//assign %2 = %10 : int[]
// isCopyEliminated = true
_TRANSFER_DEALLOC(b, _10);
//const %11 = 3 : int
_11 = 3;
//const %12 = 2 : int
_12 = 2;
//arraygen %13 = [11; 12] : int[]
_NEW1DARRAY_DEALLOC(_13, _11, _12, int64_t);
//assign %3 = %13 : int[]
// isCopyEliminated = true
_TRANSFER_DEALLOC(c, _13);
//invoke (%14) = (%1, %2, %3) specialcase1:func : function(int[],int[],int[])->(int[])
{
_FUNCTIONCALL_COPY_PRE(_14, c, 2, "liveness: c = true, readonly: c = false, return:c = MAYBE_RETURN" , "func");
_FUNCTIONCALL_COPY_PRE(_14, b, 1, "liveness: b = true, readonly: b = false, return:b = MAYBE_RETURN" , "func");
_FUNCTIONCALL_COPY_PRE(_14, a, 0, "liveness: a = true, readonly: a = false, return:a = MAYBE_RETURN" , "func");
_DEALLOC(_14);
void* tmp_a;
_COPY_1DARRAY_PARAM(a, tmp_a, int64_t);
void* tmp_b;
_COPY_1DARRAY_PARAM(b, tmp_b, int64_t);
void* tmp_c;
_COPY_1DARRAY_PARAM(c, tmp_c, int64_t);
// isCopyEliminated of 'a at 0' = false
// isCopyEliminated of 'b at 1' = false
// isCopyEliminated of 'c at 2' = false
_14 = _func_(tmp_a, a_size, tmp_b, b_size, tmp_c, c_size, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_14));
if( _14 == tmp_a ){
_14_dealloc = true;
free(tmp_b);
free(tmp_c);
} else if( _14 == tmp_b ){
_14_dealloc = true;
free(tmp_a);
free(tmp_c);
} else if( _14 == tmp_c ){
_14_dealloc = true;
free(tmp_a);
free(tmp_b);
} else {
_14_dealloc = true;
free(tmp_a);
free(tmp_b);
free(tmp_c);
}
}
//assign %4 = %14 : int[]
// isCopyEliminated = true
_TRANSFER_DEALLOC(r, _14);
//assert
{
//const %15 = 0 : int
_15 = 0;
//indexof %16 = %1, %15 : int[]
_16=a[_15];
//const %17 = 1 : int
_17 = 1;
//ifeq %16, %17 goto blklab2 : int
if(_16==_17){goto blklab2;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab2
blklab2:;
//assert
}
//assert
{
//const %18 = 0 : int
_18 = 0;
//indexof %19 = %2, %18 : int[]
_19=b[_18];
//const %20 = 2 : int
_20 = 2;
//ifeq %19, %20 goto blklab3 : int
if(_19==_20){goto blklab3;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab3
blklab3:;
//assert
}
//assert
{
//const %21 = 0 : int
_21 = 0;
//indexof %22 = %3, %21 : int[]
_22=c[_21];
//const %23 = 3 : int
_23 = 3;
//ifeq %22, %23 goto blklab4 : int
if(_22==_23){goto blklab4;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab4
blklab4:;
//assert
}
//assert
{
//const %24 = 0 : int
_24 = 0;
//indexof %25 = %4, %24 : int[]
_25=r[_24];
//const %26 = 3 : int
_26 = 3;
//ifeq %25, %26 goto blklab5 : int
if(_25==_26){goto blklab5;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab5
blklab5:;
//assert
}
//return
_DEALLOC(a);
_DEALLOC(b);
_DEALLOC(c);
_DEALLOC(r);
_DEALLOC(_7);
_DEALLOC(_10);
_DEALLOC(_13);
_DEALLOC(_14);
exit(0);
}
int main(int argc, char** args){
_DECL_1DARRAY(a);
_DECL_1DARRAY(b);
_DECL_1DARRAY(c);
int64_t _4;
int64_t _5;
int64_t _6;
int64_t _7;
int64_t _8;
_DECL_1DARRAY(_9);
_DECL_1DARRAY(_10);
int64_t _11;
int64_t _12;
int64_t _13;
void* _14;
_DECL_1DARRAY(_16);
void* _17;
int64_t _19;
int64_t _20;
int64_t _21;
int64_t _22;
int64_t _23;
int64_t _24;
int64_t _25;
_DECL_1DARRAY(_26);
_DECL_1DARRAY(_27);
int64_t _28;
int64_t _29;
int64_t _30;
int64_t _31;
int64_t _32;
int64_t _33;
void* _34;
_DECL_1DARRAY(_36);
void* _37;
int64_t _39;
int64_t _40;
void* _41;
_DECL_1DARRAY(_43);
void* _44;
int64_t _46;
int64_t _47;
//const %4 = 0 : int
_4 = 0;
//const %5 = 0 : int
_5 = 0;
//const %6 = 0 : int
_6 = 0;
//const %7 = 0 : int
_7 = 0;
//const %8 = 0 : int
_8 = 0;
//newlist %9 = (%4, %5, %6, %7, %8) : int[]
_NEW_1DARRAY_int64_t(_9, 5, 0);
_9[0] = _4; _9[1] = _5; _9[2] = _6; _9[3] = _7; _9[4] = _8;
//assign %1 = %9 : int[]
// isCopyEliminated = true
_UPDATE_1DARRAY(a, _9);
//invoke (%10) = (%1) FunctionCall3:func : function(int[])->(int[])
{
// isCopyEliminated of 'a at 0' = true
_10 = _func_(a, a_size, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_10));
}
//assign %1 = %10 : int[]
// isCopyEliminated = true
_UPDATE_1DARRAY(a, _10);
//assert
{
//const %11 = 2 : int
_11 = 2;
//indexof %12 = %1, %11 : int[]
_12=a[_11];
//const %13 = 0 : int
_13 = 0;
//ifeq %12, %13 goto blklab0 : int
if(_12==_13){goto blklab0;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab0
blklab0:;
//assert
}
//fieldload %14 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %15 = %14 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %16 = [97,91,50,93,61] : int[]
_NEW_1DARRAY_int64_t(_16, 5, 0);
_16[0] = 97; _16[1] = 91; _16[2] = 50; _16[3] = 93; _16[4] = 61;
//indirectinvoke () = %15 (%16) : method(int[])->()
{
printf_s(_16, _16_size);
}
//fieldload %17 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %18 = %17 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %19 = 2 : int
_19 = 2;
//indexof %20 = %1, %19 : int[]
_20=a[_19];
//indirectinvoke () = %18 (%20) : method(any)->()
{
printf("%"PRId64"\n", _20);
}
//const %21 = 0 : int
_21 = 0;
//const %22 = 0 : int
_22 = 0;
//const %23 = 0 : int
_23 = 0;
//const %24 = 0 : int
_24 = 0;
//const %25 = 0 : int
_25 = 0;
//newlist %26 = (%21, %22, %23, %24, %25) : int[]
_NEW_1DARRAY_int64_t(_26, 5, 0);
_26[0] = _21; _26[1] = _22; _26[2] = _23; _26[3] = _24; _26[4] = _25;
//assign %2 = %26 : int[]
// isCopyEliminated = true
_UPDATE_1DARRAY(b, _26);
//invoke (%27) = (%2) FunctionCall3:func : function(int[])->(int[])
{
void* tmp_s;
_COPY_1DARRAY_PARAM(b, tmp_s, int64_t);
// isCopyEliminated of 'b at 0' = false
_27 = _func_(tmp_s, b_size, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_27));
}
//assign %3 = %27 : int[]
// isCopyEliminated = true
_UPDATE_1DARRAY(c, _27);
//assert
{
//const %28 = 2 : int
_28 = 2;
//indexof %29 = %2, %28 : int[]
_29=b[_28];
//const %30 = 0 : int
_30 = 0;
//ifeq %29, %30 goto blklab1 : int
if(_29==_30){goto blklab1;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab1
blklab1:;
//assert
}
//assert
{
//const %31 = 2 : int
_31 = 2;
//indexof %32 = %3, %31 : int[]
_32=c[_31];
//const %33 = 0 : int
_33 = 0;
//ifeq %32, %33 goto blklab2 : int
if(_32==_33){goto blklab2;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab2
blklab2:;
//assert
}
//fieldload %34 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %35 = %34 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %36 = [98,91,50,93,61] : int[]
_NEW_1DARRAY_int64_t(_36, 5, 0);
_36[0] = 98; _36[1] = 91; _36[2] = 50; _36[3] = 93; _36[4] = 61;
//indirectinvoke () = %35 (%36) : method(int[])->()
{
printf_s(_36, _36_size);
}
//fieldload %37 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %38 = %37 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %39 = 2 : int
_39 = 2;
//indexof %40 = %2, %39 : int[]
_40=b[_39];
//indirectinvoke () = %38 (%40) : method(any)->()
{
printf("%"PRId64"\n", _40);
}
//fieldload %41 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %42 = %41 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %43 = [99,91,50,93,61] : int[]
_NEW_1DARRAY_int64_t(_43, 5, 0);
_43[0] = 99; _43[1] = 91; _43[2] = 50; _43[3] = 93; _43[4] = 61;
//indirectinvoke () = %42 (%43) : method(int[])->()
{
printf_s(_43, _43_size);
}
//fieldload %44 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %45 = %44 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %46 = 2 : int
_46 = 2;
//indexof %47 = %3, %46 : int[]
_47=c[_46];
//indirectinvoke () = %45 (%47) : method(any)->()
{
printf("%"PRId64"\n", _47);
}
//return
exit(0);
}
int main(int argc, char** args){
FILE* file;
int64_t width;
int64_t height;
_DECL_1DARRAY_BYTE(pixels);
_DECL_DEALLOC(pixels);
_DECL_1DARRAY_BYTE(newPixels);
_DECL_DEALLOC(newPixels);
void* _6;
_DECL_DEALLOC(_6);
_DECL_1DARRAY(_7);
_DECL_DEALLOC(_7);
int64_t _8;
int64_t _9;
_DECL_1DARRAY_BYTE(_10);
_DECL_DEALLOC(_10);
_DECL_1DARRAY_BYTE(_12);
_DECL_DEALLOC(_12);
//const %7 = [46,46,47,46,46,47,46,46,47,73,110,112,117,116,102,105,108,101,115,47,105,109,97,103,101,54,52,120,54,52,46,112,98,109] : int[]
_DEALLOC(_7);
_NEW_1DARRAY_int64_t(_7, 34, 0);
_7[0] = 46; _7[1] = 46; _7[2] = 47; _7[3] = 46; _7[4] = 46; _7[5] = 47; _7[6] = 46; _7[7] = 46; _7[8] = 47; _7[9] = 73; _7[10] = 110; _7[11] = 112; _7[12] = 117; _7[13] = 116; _7[14] = 102; _7[15] = 105; _7[16] = 108; _7[17] = 101; _7[18] = 115; _7[19] = 47; _7[20] = 105; _7[21] = 109; _7[22] = 97; _7[23] = 103; _7[24] = 101; _7[25] = 54; _7[26] = 52; _7[27] = 120; _7[28] = 54; _7[29] = 52; _7[30] = 46; _7[31] = 112; _7[32] = 98; _7[33] = 109;
_7_dealloc = true;
//invoke (%6) = (%7) whiley/io/File:Reader : method(whiley/lang/ASCII:string)->(whiley/io/File:Reader)
{
_6 = Reader(_7, _7_size);
}
//assign %1 = %6 : {method()->(int) available,method()->() close,method()->(bool) hasMore,method(int)->(byte[]) read,method()->(byte[]) readAll}
file = _6;
//const %8 = 64 : int
_8 = 64;
//assign %2 = %8 : int
width = _8;
//const %9 = 64 : int
_9 = 64;
//assign %3 = %9 : int
height = _9;
//fieldload %11 = %1 readAll : {method()->(int) available,method()->() close,method()->(bool) hasMore,method(int)->(byte[]) read,method()->(byte[]) readAll}
//indirectinvoke (%10) = %11 () : method()->(byte[])
{
_10 = readAll(file, &_10_size);
_10_dealloc = true;
}
//assign %4 = %10 : byte[]
_ADD_DEALLOC(pixels, _10, BYTE);
//invoke (%12) = (%4, %2, %3) SobelEdge:sobelEdgeDetection : function(byte[],int,int)->(byte[])
{
_FUNCTIONCALL_COPY_PRE(_12, pixels, 0, "liveness: pixels = false, readonly: pixels = true, return:pixels = NEVER_RETURN" , "sobelEdgeDetection");
_DEALLOC(_12);
void* tmp_pixels;
_COPY_1DARRAY_PARAM(pixels, tmp_pixels, BYTE);
_12 = _sobelEdgeDetection_(tmp_pixels, pixels_size, width, height, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_12));
_12_dealloc = true;
free(tmp_pixels);
}
//assign %5 = %12 : byte[]
_ADD_DEALLOC(newPixels, _12, BYTE);
//invoke () = (%0, %2, %3, %5) SobelEdge:print_pbm : method(whiley/lang/System:Console,int,int,byte[])->()
{
_FUNCTIONCALL_COPY_PRE(, newPixels, 3, "liveness: newPixels = false, readonly: newPixels = true, return:newPixels = NEVER_RETURN" , "print_pbm");
void* tmp_pixels;
_COPY_1DARRAY_PARAM(newPixels, tmp_pixels, BYTE);
_print_pbm_(stdout, width, height, tmp_pixels, newPixels_size);
free(tmp_pixels);
}
//return
if(file != NULL){fclose(file); file = NULL;}
_DEALLOC(pixels);
_DEALLOC(newPixels);
_DEALLOC(_7);
_DEALLOC(_10);
_DEALLOC(_12);
exit(0);
}
BYTE* _sobelEdgeDetection_(BYTE* pixels, size_t pixels_size, int64_t width, int64_t height, _DECL_1DARRAYSIZE_PARAM_CALLBYREFERENCE){
_DECL_DEALLOC(pixels);
_DECL_1DARRAY_BYTE(_3);
_DECL_DEALLOC(_3);
int64_t size;
_DECL_1DARRAY_BYTE(newPixels);
_DECL_DEALLOC(newPixels);
_DECL_1DARRAY(v_sobel);
_DECL_DEALLOC(v_sobel);
_DECL_1DARRAY(h_sobel);
_DECL_DEALLOC(h_sobel);
int64_t x;
int64_t y;
int64_t pos;
int64_t v_g;
int64_t h_g;
int64_t t_g;
int64_t _14;
BYTE _15;
_DECL_1DARRAY_BYTE(_16);
_DECL_DEALLOC(_16);
int64_t _17;
int64_t _18;
int64_t _19;
int64_t _20;
int64_t _21;
int64_t _22;
int64_t _23;
int64_t _24;
int64_t _25;
int64_t _26;
int64_t _27;
int64_t _28;
_DECL_1DARRAY(_29);
_DECL_DEALLOC(_29);
int64_t _30;
int64_t _31;
int64_t _32;
int64_t _33;
int64_t _34;
int64_t _35;
int64_t _36;
int64_t _37;
int64_t _38;
int64_t _39;
int64_t _40;
int64_t _41;
_DECL_1DARRAY(_42);
_DECL_DEALLOC(_42);
int64_t _43;
int64_t _44;
int64_t _45;
int64_t _46;
int64_t _47;
int64_t _48;
int64_t _49;
int64_t _50;
int64_t _51;
int64_t _52;
BYTE _53;
int64_t _54;
int64_t _55;
int64_t _56;
int64_t _57;
//mul %14 = %1, %2 : int
_14=width*height;
//assign %4 = %14 : int
size = _14;
//const %15 = 00100000b : byte
_15 = 0b00100000;
//arraygen %16 = [15; 4] : byte[]
_NEW1DARRAY_DEALLOC(_16, _15, size, BYTE);
//assign %5 = %16 : byte[]
_ADD_DEALLOC(newPixels, _16, BYTE);
//const %17 = 1 : int
_17 = 1;
//neg %18 = %17 : int
_18= -_17;
//const %19 = 0 : int
_19 = 0;
//const %20 = 1 : int
_20 = 1;
//const %21 = 2 : int
_21 = 2;
//neg %22 = %21 : int
_22= -_21;
//const %23 = 0 : int
_23 = 0;
//const %24 = 2 : int
_24 = 2;
//const %25 = 1 : int
_25 = 1;
//neg %26 = %25 : int
_26= -_25;
//const %27 = 0 : int
_27 = 0;
//const %28 = 1 : int
_28 = 1;
//newlist %29 = (%18, %19, %20, %22, %23, %24, %26, %27, %28) : int[]
_DEALLOC(_29);
_NEW_1DARRAY_int64_t(_29, 9, 0);
_29[0] = _18; _29[1] = _19; _29[2] = _20; _29[3] = _22; _29[4] = _23; _29[5] = _24; _29[6] = _26; _29[7] = _27; _29[8] = _28;
_29_dealloc = true;
//assign %6 = %29 : int[]
_ADD_DEALLOC(v_sobel, _29, int64_t);
//const %30 = 1 : int
_30 = 1;
//const %31 = 2 : int
_31 = 2;
//const %32 = 1 : int
_32 = 1;
//const %33 = 0 : int
_33 = 0;
//const %34 = 0 : int
_34 = 0;
//const %35 = 0 : int
_35 = 0;
//const %36 = 1 : int
_36 = 1;
//neg %37 = %36 : int
_37= -_36;
//const %38 = 2 : int
_38 = 2;
//neg %39 = %38 : int
_39= -_38;
//const %40 = 1 : int
_40 = 1;
//neg %41 = %40 : int
_41= -_40;
//newlist %42 = (%30, %31, %32, %33, %34, %35, %37, %39, %41) : int[]
_DEALLOC(_42);
_NEW_1DARRAY_int64_t(_42, 9, 0);
_42[0] = _30; _42[1] = _31; _42[2] = _32; _42[3] = _33; _42[4] = _34; _42[5] = _35; _42[6] = _37; _42[7] = _39; _42[8] = _41;
_42_dealloc = true;
//assign %7 = %42 : int[]
_ADD_DEALLOC(h_sobel, _42, int64_t);
//const %43 = 0 : int
_43 = 0;
//assign %8 = %43 : int
x = _43;
//loop (%5, %8, %9, %10, %11, %12, %13, %44, %45, %46, %47, %48, %49, %50, %51, %52, %53, %54, %55, %56, %57)
while(true){
//ifge %8, %1 goto blklab8 : int
if(x>=width){goto blklab8;}
//const %44 = 0 : int
_44 = 0;
//assign %9 = %44 : int
y = _44;
//loop (%5, %9, %10, %11, %12, %13, %45, %46, %47, %48, %49, %50, %51, %52, %53, %54, %55)
while(true){
//ifge %9, %2 goto blklab10 : int
if(y>=height){goto blklab10;}
//mul %45 = %9, %1 : int
_45=y*width;
//add %46 = %45, %8 : int
_46=_45+x;
//assign %10 = %46 : int
pos = _46;
//invoke (%47) = (%0, %1, %2, %8, %9, %6) SobelEdge:convolution : function(byte[],int,int,int,int,int[])->(int)
{
_FUNCTIONCALL_COPY_PRE(_47, v_sobel, 5, "liveness: v_sobel = true, readonly: v_sobel = true, return:v_sobel = NEVER_RETURN" , "convolution");
_FUNCTIONCALL_COPY_PRE(_47, pixels, 0, "liveness: pixels = true, readonly: pixels = true, return:pixels = NEVER_RETURN" , "convolution");
void* tmp_pixels;
_COPY_1DARRAY_PARAM(pixels, tmp_pixels, BYTE);
void* tmp_kernel;
_COPY_1DARRAY_PARAM(v_sobel, tmp_kernel, int64_t);
_47 = _convolution_(tmp_pixels, pixels_size, width, height, x, y, tmp_kernel, v_sobel_size);
free(tmp_pixels);
free(tmp_kernel);
}
//assign %11 = %47 : int
v_g = _47;
//invoke (%48) = (%0, %1, %2, %8, %9, %7) SobelEdge:convolution : function(byte[],int,int,int,int,int[])->(int)
{
_FUNCTIONCALL_COPY_PRE(_48, h_sobel, 5, "liveness: h_sobel = true, readonly: h_sobel = true, return:h_sobel = NEVER_RETURN" , "convolution");
_FUNCTIONCALL_COPY_PRE(_48, pixels, 0, "liveness: pixels = true, readonly: pixels = true, return:pixels = NEVER_RETURN" , "convolution");
void* tmp_pixels;
_COPY_1DARRAY_PARAM(pixels, tmp_pixels, BYTE);
void* tmp_kernel;
_COPY_1DARRAY_PARAM(h_sobel, tmp_kernel, int64_t);
_48 = _convolution_(tmp_pixels, pixels_size, width, height, x, y, tmp_kernel, h_sobel_size);
free(tmp_pixels);
free(tmp_kernel);
}
//assign %12 = %48 : int
h_g = _48;
//invoke (%49) = (%11) whiley/lang/Math:abs : function(int)->(int)
{
_49 = abs(v_g);
}
//invoke (%50) = (%12) whiley/lang/Math:abs : function(int)->(int)
{
_50 = abs(h_g);
}
//add %51 = %49, %50 : int
_51=_49+_50;
//assign %13 = %51 : int
t_g = _51;
//const %52 = 800 : int
_52 = 800;
//ifle %13, %52 goto blklab12 : int
if(t_g<=_52){goto blklab12;}
//const %53 = 01100010b : byte
_53 = 0b01100010;
//update %5[%10] = %53 : byte[] -> byte[]
newPixels[pos] = _53;
//.blklab12
blklab12:;
//const %54 = 1 : int
_54 = 1;
//add %55 = %9, %54 : int
_55=y+_54;
//assign %9 = %55 : int
y = _55;
//.blklab11
blklab11:;
}
//.blklab10
blklab10:;
//const %56 = 1 : int
_56 = 1;
//add %57 = %8, %56 : int
_57=x+_56;
//assign %8 = %57 : int
x = _57;
//.blklab9
blklab9:;
}
//.blklab8
blklab8:;
//return %5
_DEALLOC(pixels);
_DEALLOC(_3);
_DEALLOC(v_sobel);
_DEALLOC(h_sobel);
_DEALLOC(_16);
_DEALLOC(_29);
_DEALLOC(_42);
_UPDATE_1DARRAYSZIE_PARAM_CALLBYREFERENCE(newPixels);
return newPixels;
//return
}
int main(int argc, char** args){
int64_t size;
int64_t width;
int64_t height;
_DECL_1DARRAY(A);
_DECL_1DARRAY(B);
_DECL_1DARRAY(C);
int64_t _7;
void* _8;
_DECL_1DARRAY(_10);
void* _11;
int64_t _13;
int64_t _14;
_DECL_1DARRAY(_15);
_DECL_1DARRAY(_16);
int64_t _17;
int64_t _18;
_DECL_1DARRAY(_19);
_DECL_1DARRAY(_20);
int64_t _21;
int64_t _22;
_DECL_1DARRAY(_23);
_DECL_1DARRAY(_24);
int64_t _25;
int64_t _26;
int64_t _27;
int64_t _28;
int64_t _29;
int64_t _30;
int64_t _31;
int64_t _32;
int64_t _33;
int64_t _34;
int64_t _35;
int64_t _36;
int64_t _37;
int64_t _38;
int64_t _39;
int64_t _40;
int64_t _41;
int64_t _42;
int64_t _43;
int64_t _44;
int64_t _45;
void* _46;
_DECL_1DARRAY(_48);
void* _49;
int64_t _51;
int64_t _52;
int64_t _53;
int64_t _54;
int64_t _55;
int64_t _56;
int64_t _57;
void* _58;
_DECL_1DARRAY(_60);
//const %7 = 20 : int
_7 = 20;
//assign %1 = %7 : int
size = _7;
//assign %2 = %1 : int
width = size;
//assign %3 = %1 : int
height = size;
//fieldload %8 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %9 = %8 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %10 = [115,105,122,101,32,61,32] : int[]
_NEW_1DARRAY_int64_t(_10, 7, 0);
_10[0] = 115; _10[1] = 105; _10[2] = 122; _10[3] = 101; _10[4] = 32; _10[5] = 61; _10[6] = 32;
//indirectinvoke () = %9 (%10) : method(int[])->()
{
printf_s(_10, _10_size);
}
//fieldload %11 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %12 = %11 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//indirectinvoke () = %12 (%1) : method(any)->()
{
printf("%"PRId64"\n", size);
}
//const %13 = 0 : int
_13 = 0;
//mul %14 = %2, %3 : int
_14=width*height;
//arraygen %15 = [13; 14] : int[]
_NEW_1DARRAY_int64_t(_15, _14, _13);
//assign %4 = %15 : int[]
_COPY_1DARRAY_int64_t(A, _15);
//invoke (%16) = (%4, %2, %3) MatrixMult:init : function(int[],int,int)->(int[])
{
void* tmp_data;
_COPY_1DARRAY_PARAM(A, tmp_data, int64_t);
_16 = _init_(tmp_data, A_size, width, height, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_16));
}
//assign %4 = %16 : int[]
_COPY_1DARRAY_int64_t(A, _16);
//const %17 = 0 : int
_17 = 0;
//mul %18 = %2, %3 : int
_18=width*height;
//arraygen %19 = [17; 18] : int[]
_NEW_1DARRAY_int64_t(_19, _18, _17);
//assign %5 = %19 : int[]
_COPY_1DARRAY_int64_t(B, _19);
//invoke (%20) = (%5, %2, %3) MatrixMult:init : function(int[],int,int)->(int[])
{
void* tmp_data;
_COPY_1DARRAY_PARAM(B, tmp_data, int64_t);
_20 = _init_(tmp_data, B_size, width, height, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_20));
}
//assign %5 = %20 : int[]
_COPY_1DARRAY_int64_t(B, _20);
//const %21 = 0 : int
_21 = 0;
//mul %22 = %2, %3 : int
_22=width*height;
//arraygen %23 = [21; 22] : int[]
_NEW_1DARRAY_int64_t(_23, _22, _21);
//assign %6 = %23 : int[]
_COPY_1DARRAY_int64_t(C, _23);
//invoke (%24) = (%4, %5, %6, %2, %3) MatrixMult:mat_mult : function(int[],int[],int[],int,int)->(int[])
{
void* tmp_a;
_COPY_1DARRAY_PARAM(A, tmp_a, int64_t);
void* tmp_b;
_COPY_1DARRAY_PARAM(B, tmp_b, int64_t);
void* tmp_data;
_COPY_1DARRAY_PARAM(C, tmp_data, int64_t);
_24 = _mat_mult_(tmp_a, A_size, tmp_b, B_size, tmp_data, C_size, width, height, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_24));
}
//assign %6 = %24 : int[]
_COPY_1DARRAY_int64_t(C, _24);
//assert
{
//const %25 = 19 : int
_25 = 19;
//const %26 = 20 : int
_26 = 20;
//mul %27 = %25, %26 : int
_27=_25*_26;
//const %28 = 19 : int
_28 = 19;
//add %29 = %27, %28 : int
_29=_27+_28;
//indexof %30 = %4, %29 : int[]
_30=A[_29];
//const %31 = 19 : int
_31 = 19;
//ifeq %30, %31 goto blklab10 : int
if(_30==_31){goto blklab10;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab10
blklab10:;
//assert
}
//assert
{
//const %32 = 19 : int
_32 = 19;
//const %33 = 20 : int
_33 = 20;
//mul %34 = %32, %33 : int
_34=_32*_33;
//const %35 = 19 : int
_35 = 19;
//add %36 = %34, %35 : int
_36=_34+_35;
//indexof %37 = %5, %36 : int[]
_37=B[_36];
//const %38 = 19 : int
_38 = 19;
//ifeq %37, %38 goto blklab11 : int
if(_37==_38){goto blklab11;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab11
blklab11:;
//assert
}
//assert
{
//const %39 = 19 : int
_39 = 19;
//const %40 = 20 : int
_40 = 20;
//mul %41 = %39, %40 : int
_41=_39*_40;
//const %42 = 19 : int
_42 = 19;
//add %43 = %41, %42 : int
_43=_41+_42;
//indexof %44 = %6, %43 : int[]
_44=C[_43];
//const %45 = 3610 : int
_45 = 3610;
//ifeq %44, %45 goto blklab12 : int
if(_44==_45){goto blklab12;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab12
blklab12:;
//assert
}
//fieldload %46 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %47 = %46 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %48 = [77,97,116,114,105,120,32,67,91,115,105,122,101,45,49,93,91,115,105,122,101,45,49,93,32,61,32] : int[]
_NEW_1DARRAY_int64_t(_48, 27, 0);
_48[0] = 77; _48[1] = 97; _48[2] = 116; _48[3] = 114; _48[4] = 105; _48[5] = 120; _48[6] = 32; _48[7] = 67; _48[8] = 91; _48[9] = 115; _48[10] = 105; _48[11] = 122; _48[12] = 101; _48[13] = 45; _48[14] = 49; _48[15] = 93; _48[16] = 91; _48[17] = 115; _48[18] = 105; _48[19] = 122; _48[20] = 101; _48[21] = 45; _48[22] = 49; _48[23] = 93; _48[24] = 32; _48[25] = 61; _48[26] = 32;
//indirectinvoke () = %47 (%48) : method(int[])->()
{
printf_s(_48, _48_size);
}
//fieldload %49 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %50 = %49 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %51 = 1 : int
_51 = 1;
//sub %52 = %1, %51 : int
_52=size-_51;
//mul %53 = %52, %1 : int
_53=_52*size;
//add %54 = %53, %1 : int
_54=_53+size;
//const %55 = 1 : int
_55 = 1;
//sub %56 = %54, %55 : int
_56=_54-_55;
//indexof %57 = %6, %56 : int[]
_57=C[_56];
//indirectinvoke () = %50 (%57) : method(any)->()
{
printf("%"PRId64"\n", _57);
}
//fieldload %58 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %59 = %58 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %60 = [80,97,115,115,32,77,97,116,114,105,120,77,117,108,116,32,116,101,115,116,32,99,97,115,101] : int[]
_NEW_1DARRAY_int64_t(_60, 25, 0);
_60[0] = 80; _60[1] = 97; _60[2] = 115; _60[3] = 115; _60[4] = 32; _60[5] = 77; _60[6] = 97; _60[7] = 116; _60[8] = 114; _60[9] = 105; _60[10] = 120; _60[11] = 77; _60[12] = 117; _60[13] = 108; _60[14] = 116; _60[15] = 32; _60[16] = 116; _60[17] = 101; _60[18] = 115; _60[19] = 116; _60[20] = 32; _60[21] = 99; _60[22] = 97; _60[23] = 115; _60[24] = 101;
//indirectinvoke () = %59 (%60) : method(int[])->()
{
println_s(_60, _60_size);
}
//return
exit(0);
}
int main(int argc, char** args){
_DECL_1DARRAY(a);
_DECL_1DARRAY(b);
_DECL_1DARRAY(c);
int64_t _4;
int64_t _5;
int64_t _6;
int64_t _7;
int64_t _8;
_DECL_1DARRAY(_9);
_DECL_1DARRAY(_10);
int64_t _11;
int64_t _12;
int64_t _13;
int64_t _14;
void* _15;
_DECL_1DARRAY(_17);
void* _18;
int64_t _20;
int64_t _21;
int64_t _22;
int64_t _23;
int64_t _24;
int64_t _25;
int64_t _26;
_DECL_1DARRAY(_27);
_DECL_1DARRAY(_28);
int64_t _29;
int64_t _30;
int64_t _31;
int64_t _32;
int64_t _33;
int64_t _34;
int64_t _35;
void* _36;
_DECL_1DARRAY(_38);
void* _39;
int64_t _41;
int64_t _42;
void* _43;
_DECL_1DARRAY(_45);
void* _46;
int64_t _48;
int64_t _49;
//const %4 = 0 : int
_4 = 0;
//const %5 = 0 : int
_5 = 0;
//const %6 = 0 : int
_6 = 0;
//const %7 = 0 : int
_7 = 0;
//const %8 = 0 : int
_8 = 0;
//newlist %9 = (%4, %5, %6, %7, %8) : int[]
_NEW_1DARRAY_int64_t(_9, 5, 0);
_9[0] = _4; _9[1] = _5; _9[2] = _6; _9[3] = _7; _9[4] = _8;
//assign %1 = %9 : int[]
_COPY_1DARRAY_int64_t(a, _9);
//const %11 = 6 : int
_11 = 6;
//invoke (%10) = (%1, %11) FunctionCall2:func : function(int[],int)->(int[])
{
void* tmp_s;
_COPY_1DARRAY_PARAM(a, tmp_s, int64_t);
_10 = _func_(tmp_s, a_size, _11, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_10));
}
//assign %1 = %10 : int[]
_COPY_1DARRAY_int64_t(a, _10);
//assert
{
//const %12 = 2 : int
_12 = 2;
//indexof %13 = %1, %12 : int[]
_13=a[_12];
//const %14 = 3 : int
_14 = 3;
//ifeq %13, %14 goto blklab2 : int
if(_13==_14){goto blklab2;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab2
blklab2:;
//assert
}
//fieldload %15 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %16 = %15 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %17 = [97,91,50,93,61] : int[]
_NEW_1DARRAY_int64_t(_17, 5, 0);
_17[0] = 97; _17[1] = 91; _17[2] = 50; _17[3] = 93; _17[4] = 61;
//indirectinvoke () = %16 (%17) : method(int[])->()
{
printf_s(_17, _17_size);
}
//fieldload %18 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %19 = %18 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %20 = 2 : int
_20 = 2;
//indexof %21 = %1, %20 : int[]
_21=a[_20];
//indirectinvoke () = %19 (%21) : method(any)->()
{
printf("%"PRId64"\n", _21);
}
//const %22 = 0 : int
_22 = 0;
//const %23 = 0 : int
_23 = 0;
//const %24 = 0 : int
_24 = 0;
//const %25 = 0 : int
_25 = 0;
//const %26 = 0 : int
_26 = 0;
//newlist %27 = (%22, %23, %24, %25, %26) : int[]
_NEW_1DARRAY_int64_t(_27, 5, 0);
_27[0] = _22; _27[1] = _23; _27[2] = _24; _27[3] = _25; _27[4] = _26;
//assign %2 = %27 : int[]
_COPY_1DARRAY_int64_t(b, _27);
//const %29 = 1 : int
_29 = 1;
//invoke (%28) = (%2, %29) FunctionCall2:func : function(int[],int)->(int[])
{
void* tmp_s;
_COPY_1DARRAY_PARAM(b, tmp_s, int64_t);
_28 = _func_(tmp_s, b_size, _29, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_28));
}
//assign %3 = %28 : int[]
_COPY_1DARRAY_int64_t(c, _28);
//assert
{
//const %30 = 2 : int
_30 = 2;
//indexof %31 = %2, %30 : int[]
_31=b[_30];
//const %32 = 0 : int
_32 = 0;
//ifeq %31, %32 goto blklab3 : int
if(_31==_32){goto blklab3;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab3
blklab3:;
//assert
}
//assert
{
//const %33 = 2 : int
_33 = 2;
//indexof %34 = %3, %33 : int[]
_34=c[_33];
//const %35 = 0 : int
_35 = 0;
//ifeq %34, %35 goto blklab4 : int
if(_34==_35){goto blklab4;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab4
blklab4:;
//assert
}
//fieldload %36 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %37 = %36 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %38 = [98,91,50,93,61] : int[]
_NEW_1DARRAY_int64_t(_38, 5, 0);
_38[0] = 98; _38[1] = 91; _38[2] = 50; _38[3] = 93; _38[4] = 61;
//indirectinvoke () = %37 (%38) : method(int[])->()
{
printf_s(_38, _38_size);
}
//fieldload %39 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %40 = %39 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %41 = 2 : int
_41 = 2;
//indexof %42 = %2, %41 : int[]
_42=b[_41];
//indirectinvoke () = %40 (%42) : method(any)->()
{
printf("%"PRId64"\n", _42);
}
//fieldload %43 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %44 = %43 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %45 = [99,91,50,93,61] : int[]
_NEW_1DARRAY_int64_t(_45, 5, 0);
_45[0] = 99; _45[1] = 91; _45[2] = 50; _45[3] = 93; _45[4] = 61;
//indirectinvoke () = %44 (%45) : method(int[])->()
{
printf_s(_45, _45_size);
}
//fieldload %46 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %47 = %46 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %48 = 2 : int
_48 = 2;
//indexof %49 = %3, %48 : int[]
_49=c[_48];
//indirectinvoke () = %47 (%49) : method(any)->()
{
printf("%"PRId64"\n", _49);
}
//return
exit(0);
}
BYTE* _f_resize_(BYTE* input, size_t input_size, _DECL_1DARRAYSIZE_PARAM_CALLBYREFERENCE){
_DECL_1DARRAY_BYTE(output);
int64_t pos;
int64_t size;
BYTE index;
BYTE item;
int64_t _6;
BYTE _7;
int64_t _8;
int64_t _9;
int64_t _10;
_DECL_1DARRAY_BYTE(_11);
int64_t _12;
int64_t _13;
BYTE _14;
BYTE _15;
int64_t _16;
int64_t _17;
int64_t _18;
int64_t _19;
int64_t _20;
int64_t _21;
int64_t _22;
int64_t _23;
int64_t _24;
_DECL_1DARRAY_BYTE(_25);
//const %6 = 0 : int
_6 = 0;
//assign %2 = %6 : int
pos = _6;
//const %7 = 00000000b : byte
_7 = 0b00000000;
//const %8 = 2 : int
_8 = 2;
//lengthof %9 = %0 : byte[]
_9 = input_size;
//mul %10 = %8, %9 : int
_10=_8*_9;
//arraygen %11 = [7; 10] : byte[]
_NEW_1DARRAY_BYTE(_11, _10, _7);
//assign %1 = %11 : byte[]
_COPY_1DARRAY_BYTE(output, _11);
//const %12 = 0 : int
_12 = 0;
//assign %3 = %12 : int
size = _12;
//loop (%1, %2, %3, %4, %5, %13, %14, %15, %16, %17, %18, %19, %20, %21)
while(true){
//lengthof %13 = %0 : byte[]
_13 = input_size;
//ifge %2, %13 goto blklab9 : int
if(pos>=_13){goto blklab9;}
//invoke (%14) = (%2) whiley/lang/Int:toUnsignedByte : function(whiley/lang/Int:u8)->(byte)
{
_14 = (BYTE)pos;
}
//assign %4 = %14 : byte
index = _14;
//indexof %15 = %0, %2 : byte[]
_15=input[pos];
//assign %5 = %15 : byte
item = _15;
//update %1[%3] = %4 : byte[] -> byte[]
output[size] = index;
//const %16 = 1 : int
_16 = 1;
//add %17 = %3, %16 : int
_17=size+_16;
//assign %3 = %17 : int
size = _17;
//update %1[%3] = %5 : byte[] -> byte[]
output[size] = item;
//const %18 = 1 : int
_18 = 1;
//add %19 = %3, %18 : int
_19=size+_18;
//assign %3 = %19 : int
size = _19;
//const %20 = 1 : int
_20 = 1;
//add %21 = %2, %20 : int
_21=pos+_20;
//assign %2 = %21 : int
pos = _21;
//.blklab10
blklab10:;
}
//.blklab9
blklab9:;
//invoke (%25) = (%1, %3) appendarray1:resize : function(byte[],int)->(byte[])
{
void* tmp_items;
_COPY_1DARRAY_PARAM(output, tmp_items, BYTE);
_25 = _resize_(tmp_items, output_size, size, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_25));
}
//assign %1 = %25 : byte[]
_COPY_1DARRAY_BYTE(output, _25);
//return %1
_UPDATE_1DARRAYSZIE_PARAM_CALLBYREFERENCE(output);
return output;
//return
}
int main(int argc, char** args){
_DECL_1DARRAY(rs);
int64_t max;
int64_t index;
_DECL_1DARRAY(arr);
_DECL_1DARRAY(_5);
int64_t _6;
int64_t _7;
int64_t _8;
int64_t _9;
int64_t _10;
_DECL_1DARRAY(_11);
int64_t _12;
int64_t _13;
int64_t _14;
int64_t _15;
int64_t _16;
_DECL_1DARRAY(_17);
int64_t _18;
int64_t _19;
int64_t _20;
int64_t _21;
int64_t _22;
_DECL_1DARRAY(_23);
int64_t _24;
int64_t _25;
int64_t _26;
_DECL_1DARRAY(_27);
int64_t _28;
int64_t _29;
int64_t _30;
int64_t _31;
void* _32;
_DECL_1DARRAY(_34);
//const %6 = 1 : int
_6 = 1;
//const %7 = 2 : int
_7 = 2;
//const %8 = 3 : int
_8 = 3;
//const %9 = 4 : int
_9 = 4;
//const %10 = 5 : int
_10 = 5;
//newlist %11 = (%6, %7, %8, %9, %10) : int[]
_NEW_1DARRAY_int64_t(_11, 5, 0);
_11[0] = _6; _11[1] = _7; _11[2] = _8; _11[3] = _9; _11[4] = _10;
//invoke (%5) = (%11) reverse:reverse : function(int[])->(int[])
{
void* tmp_ls;
_COPY_1DARRAY_PARAM(_11, tmp_ls, int64_t);
_5 = _reverse_(tmp_ls, _11_size, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_5));
}
//assign %1 = %5 : int[]
_COPY_1DARRAY_int64_t(rs, _5);
//assert
{
//const %12 = 5 : int
_12 = 5;
//const %13 = 4 : int
_13 = 4;
//const %14 = 3 : int
_14 = 3;
//const %15 = 2 : int
_15 = 2;
//const %16 = 1 : int
_16 = 1;
//newlist %17 = (%12, %13, %14, %15, %16) : int[]
_NEW_1DARRAY_int64_t(_17, 5, 0);
_17[0] = _12; _17[1] = _13; _17[2] = _14; _17[3] = _15; _17[4] = _16;
//ifeq %1, %17 goto blklab4 : int[]
_IFEQ_ARRAY_int64_t(rs, _17, blklab4);
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab4
blklab4:;
//assert
}
//const %18 = 10 : int
_18 = 10;
//assign %2 = %18 : int
max = _18;
//const %19 = 0 : int
_19 = 0;
//assign %3 = %19 : int
index = _19;
//const %20 = 0 : int
_20 = 0;
//const %21 = 1 : int
_21 = 1;
//add %22 = %2, %21 : int
_22=max+_21;
//arraygen %23 = [20; 22] : int[]
_NEW_1DARRAY_int64_t(_23, _22, _20);
//assign %4 = %23 : int[]
_COPY_1DARRAY_int64_t(arr, _23);
//loop (%3, %4, %24, %25, %26)
while(true){
//ifgt %3, %2 goto blklab5 : int
if(index>max){goto blklab5;}
//sub %24 = %2, %3 : int
_24=max-index;
//update %4[%3] = %24 : int[] -> int[]
arr[index] = _24;
//const %25 = 1 : int
_25 = 1;
//add %26 = %3, %25 : int
_26=index+_25;
//assign %3 = %26 : int
index = _26;
//.blklab6
blklab6:;
}
//.blklab5
blklab5:;
//invoke (%27) = (%4) reverse:reverse : function(int[])->(int[])
{
void* tmp_ls;
_COPY_1DARRAY_PARAM(arr, tmp_ls, int64_t);
_27 = _reverse_(tmp_ls, arr_size, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_27));
}
//assign %4 = %27 : int[]
_COPY_1DARRAY_int64_t(arr, _27);
//assert
{
//const %28 = 0 : int
_28 = 0;
//indexof %29 = %4, %28 : int[]
_29=arr[_28];
//const %30 = 0 : int
_30 = 0;
//ifeq %29, %30 goto blklab7 : int
if(_29==_30){goto blklab7;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab7
blklab7:;
//assert
}
//assert
{
//indexof %31 = %4, %2 : int[]
_31=arr[max];
//ifeq %31, %2 goto blklab8 : int
if(_31==max){goto blklab8;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab8
blklab8:;
//assert
}
//fieldload %32 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %33 = %32 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %34 = [80,97,115,115,32,114,101,118,101,114,115,101,32,116,101,115,116,32,99,97,115,101] : int[]
_NEW_1DARRAY_int64_t(_34, 22, 0);
_34[0] = 80; _34[1] = 97; _34[2] = 115; _34[3] = 115; _34[4] = 32; _34[5] = 114; _34[6] = 101; _34[7] = 118; _34[8] = 101; _34[9] = 114; _34[10] = 115; _34[11] = 101; _34[12] = 32; _34[13] = 116; _34[14] = 101; _34[15] = 115; _34[16] = 116; _34[17] = 32; _34[18] = 99; _34[19] = 97; _34[20] = 115; _34[21] = 101;
//indirectinvoke () = %33 (%34) : method(int[])->()
{
printf_s(_34, _34_size);
}
//return
exit(0);
}
int main(int argc, char** args){
int64_t n;
_DECL_1DARRAY(moves);
int64_t sum_alice;
int64_t _4;
int64_t _5;
int64_t _6;
_DECL_1DARRAY(_7);
_DECL_1DARRAY(_8);
int64_t _9;
int64_t _10;
int64_t _11;
int64_t _12;
void* _13;
_DECL_1DARRAY(_15);
void* _16;
void* _18;
_DECL_1DARRAY(_20);
//const %4 = 10 : int
_4 = 10;
//assign %1 = %4 : int
n = _4;
//const %5 = 0 : int
_5 = 0;
//mul %6 = %1, %1 : int
_6=n*n;
//arraygen %7 = [5; 6] : int[]
_NEW_1DARRAY_int64_t(_7, _6, _5);
//assign %2 = %7 : int[]
_COPY_1DARRAY_int64_t(moves, _7);
//invoke (%8) = (%2, %1) CoinGame2:findMoves : function(int[],int)->(int[])
{
void* tmp_moves;
_COPY_1DARRAY_PARAM(moves, tmp_moves, int64_t);
_8 = _findMoves_(tmp_moves, moves_size, n, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_8));
}
//assign %2 = %8 : int[]
_COPY_1DARRAY_int64_t(moves, _8);
//const %9 = 1 : int
_9 = 1;
//sub %10 = %1, %9 : int
_10=n-_9;
//indexof %11 = %2, %10 : int[]
_11=moves[_10];
//assign %3 = %11 : int
sum_alice = _11;
//assert
{
//const %12 = 25 : int
_12 = 25;
//ifeq %3, %12 goto blklab11 : int
if(sum_alice==_12){goto blklab11;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab11
blklab11:;
//assert
}
//fieldload %13 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %14 = %13 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %15 = [84,104,101,32,116,111,116,97,108,32,97,109,111,117,110,116,32,111,102,32,109,111,110,101,121,32,40,109,97,120,105,109,117,109,41,32,65,108,105,99,101,32,103,101,116,115,32,105,115,32] : int[]
_NEW_1DARRAY_int64_t(_15, 50, 0);
_15[0] = 84; _15[1] = 104; _15[2] = 101; _15[3] = 32; _15[4] = 116; _15[5] = 111; _15[6] = 116; _15[7] = 97; _15[8] = 108; _15[9] = 32; _15[10] = 97; _15[11] = 109; _15[12] = 111; _15[13] = 117; _15[14] = 110; _15[15] = 116; _15[16] = 32; _15[17] = 111; _15[18] = 102; _15[19] = 32; _15[20] = 109; _15[21] = 111; _15[22] = 110; _15[23] = 101; _15[24] = 121; _15[25] = 32; _15[26] = 40; _15[27] = 109; _15[28] = 97; _15[29] = 120; _15[30] = 105; _15[31] = 109; _15[32] = 117; _15[33] = 109; _15[34] = 41; _15[35] = 32; _15[36] = 65; _15[37] = 108; _15[38] = 105; _15[39] = 99; _15[40] = 101; _15[41] = 32; _15[42] = 103; _15[43] = 101; _15[44] = 116; _15[45] = 115; _15[46] = 32; _15[47] = 105; _15[48] = 115; _15[49] = 32;
//indirectinvoke () = %14 (%15) : method(int[])->()
{
printf_s(_15, _15_size);
}
//fieldload %16 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %17 = %16 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//indirectinvoke () = %17 (%3) : method(any)->()
{
printf("%"PRId64"\n", sum_alice);
}
//fieldload %18 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %19 = %18 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %20 = [80,97,115,115,32,67,111,105,110,71,97,109,101,32,116,101,115,116,32,99,97,115,101] : int[]
_NEW_1DARRAY_int64_t(_20, 23, 0);
_20[0] = 80; _20[1] = 97; _20[2] = 115; _20[3] = 115; _20[4] = 32; _20[5] = 67; _20[6] = 111; _20[7] = 105; _20[8] = 110; _20[9] = 71; _20[10] = 97; _20[11] = 109; _20[12] = 101; _20[13] = 32; _20[14] = 116; _20[15] = 101; _20[16] = 115; _20[17] = 116; _20[18] = 32; _20[19] = 99; _20[20] = 97; _20[21] = 115; _20[22] = 101;
//indirectinvoke () = %19 (%20) : method(int[])->()
{
println_s(_20, _20_size);
}
//return
exit(0);
}
int main(int argc, char** args){
_DECL_1DARRAY(till);
_DECL_DEALLOC(till);
int64_t _2;
int64_t _3;
int64_t _4;
int64_t _5;
int64_t _6;
int64_t _7;
int64_t _8;
int64_t _9;
_DECL_1DARRAY(_10);
_DECL_DEALLOC(_10);
void* _11;
_DECL_1DARRAY(_13);
_DECL_DEALLOC(_13);
void* _14;
_DECL_1DARRAY(_16);
_DECL_DEALLOC(_16);
//const %2 = 5 : int
_2 = 5;
//const %3 = 3 : int
_3 = 3;
//const %4 = 3 : int
_4 = 3;
//const %5 = 1 : int
_5 = 1;
//const %6 = 1 : int
_6 = 1;
//const %7 = 3 : int
_7 = 3;
//const %8 = 0 : int
_8 = 0;
//const %9 = 0 : int
_9 = 0;
//newlist %10 = (%2, %3, %4, %5, %6, %7, %8, %9) : int[]
_DEALLOC(_10);
_NEW_1DARRAY_int64_t(_10, 8, 0);
_10[0] = _2; _10[1] = _3; _10[2] = _4; _10[3] = _5; _10[4] = _6; _10[5] = _7; _10[6] = _8; _10[7] = _9;
_10_dealloc = true;
//assign %1 = %10 : int[]
_ADD_DEALLOC(till, _10, int64_t);
//fieldload %11 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %12 = %11 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %13 = [84,105,108,108,58,32] : int[]
_DEALLOC(_13);
_NEW_1DARRAY_int64_t(_13, 6, 0);
_13[0] = 84; _13[1] = 105; _13[2] = 108; _13[3] = 108; _13[4] = 58; _13[5] = 32;
_13_dealloc = true;
//indirectinvoke () = %12 (%13) : method(int[])->()
{
printf_s(_13, _13_size);
}
//fieldload %14 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %15 = %14 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//invoke (%16) = (%1) ArrayAppend3:toString : function(ArrayAppend3:Cash)->(whiley/lang/ASCII:string)
{
_FUNCTIONCALL_COPY_PRE(_16, till, 0, "liveness: till = false, readonly: till = true, return:till = NEVER_RETURN" , "toString");
_DEALLOC(_16);
void* tmp_c;
_COPY_1DARRAY_PARAM(till, tmp_c, int64_t);
_16 = _toString_(tmp_c, till_size, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_16));
_16_dealloc = true;
free(tmp_c);
}
//indirectinvoke () = %15 (%16) : method(int[])->()
{
println_s(_16, _16_size);
}
//return
_DEALLOC(till);
_DEALLOC(_10);
_DEALLOC(_13);
_DEALLOC(_16);
exit(0);
}
int main(int argc, char** args){
_DECL_1DARRAY_BYTE(b);
int64_t inspos;
BYTE item;
_DECL_1DARRAY_BYTE(a);
BYTE _5;
int64_t _6;
_DECL_1DARRAY_BYTE(_7);
int64_t _8;
BYTE _9;
int64_t _10;
_DECL_1DARRAY_BYTE(_11);
int64_t _12;
BYTE _13;
BYTE _14;
int64_t _15;
BYTE _16;
int64_t _17;
BYTE _18;
int64_t _19;
BYTE _20;
BYTE _21;
int64_t _22;
int64_t _23;
int64_t _24;
int64_t _25;
void* _26;
_DECL_1DARRAY(_28);
void* _29;
int64_t _31;
BYTE _32;
void* _33;
_DECL_1DARRAY(_35);
void* _36;
int64_t _38;
void* _39;
_DECL_1DARRAY(_41);
//const %5 = 00000000b : byte
_5 = 0b00000000;
//const %6 = 3 : int
_6 = 3;
//arraygen %7 = [5; 6] : byte[]
_NEW_1DARRAY_BYTE(_7, _6, _5);
//assign %1 = %7 : byte[]
// isCopyEliminated = true
_UPDATE_1DARRAY(b, _7);
//const %8 = 3 : int
_8 = 3;
//assign %2 = %8 : int
// isCopyEliminated = true
inspos = _8;
//const %10 = 1 : int
_10 = 1;
//invoke (%9) = (%10) whiley/lang/Int:toUnsignedByte : function(whiley/lang/Int:u8)->(byte)
{
_9 = (BYTE)_10;
}
//assign %3 = %9 : byte
// isCopyEliminated = true
item = _9;
//invoke (%11) = (%1, %2, %3) opt_append:opt_append : function(byte[],opt_append:nat,byte)->(byte[])
{
void* tmp_items;
_COPY_1DARRAY_PARAM(b, tmp_items, BYTE);
// isCopyEliminated of 'b at 0' = false
_11 = _opt_append_(tmp_items, b_size, inspos, item, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_11));
}
//assign %4 = %11 : byte[]
// isCopyEliminated = true
_UPDATE_1DARRAY(a, _11);
//assert
{
//const %12 = 2 : int
_12 = 2;
//indexof %13 = %1, %12 : byte[]
_13=b[_12];
//const %14 = 00000000b : byte
_14 = 0b00000000;
//ifeq %13, %14 goto blklab14 : byte
if(_13==_14){goto blklab14;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab14
blklab14:;
//assert
}
//assert
{
//const %15 = 2 : int
_15 = 2;
//indexof %16 = %4, %15 : byte[]
_16=a[_15];
//const %17 = 2 : int
_17 = 2;
//indexof %18 = %1, %17 : byte[]
_18=b[_17];
//ifeq %16, %18 goto blklab15 : byte
if(_16==_18){goto blklab15;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab15
blklab15:;
//assert
}
//assert
{
//const %19 = 3 : int
_19 = 3;
//indexof %20 = %4, %19 : byte[]
_20=a[_19];
//const %21 = 00000001b : byte
_21 = 0b00000001;
//ifeq %20, %21 goto blklab16 : byte
if(_20==_21){goto blklab16;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab16
blklab16:;
//assert
}
//assert
{
//lengthof %22 = %1 : byte[]
_22 = b_size;
//const %23 = 3 : int
_23 = 3;
//ifeq %22, %23 goto blklab17 : int
if(_22==_23){goto blklab17;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab17
blklab17:;
//assert
}
//assert
{
//lengthof %24 = %4 : byte[]
_24 = a_size;
//const %25 = 7 : int
_25 = 7;
//ifeq %24, %25 goto blklab18 : int
if(_24==_25){goto blklab18;}
//fail
fprintf(stderr,"fail");
exit(-1);
//.blklab18
blklab18:;
//assert
}
//fieldload %26 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %27 = %26 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %28 = [97,91,51,93,61] : int[]
_NEW_1DARRAY_int64_t(_28, 5, 0);
_28[0] = 97; _28[1] = 91; _28[2] = 51; _28[3] = 93; _28[4] = 61;
//indirectinvoke () = %27 (%28) : method(int[])->()
{
printf_s(_28, _28_size);
}
//fieldload %29 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %30 = %29 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %31 = 3 : int
_31 = 3;
//indexof %32 = %4, %31 : byte[]
_32=a[_31];
//indirectinvoke () = %30 (%32) : method(any)->()
{
printf("%"PRIu8"\n", _32);
}
//fieldload %33 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %34 = %33 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %35 = [65,114,114,97,121,32,97,58,32] : int[]
_NEW_1DARRAY_int64_t(_35, 9, 0);
_35[0] = 65; _35[1] = 114; _35[2] = 114; _35[3] = 97; _35[4] = 121; _35[5] = 32; _35[6] = 97; _35[7] = 58; _35[8] = 32;
//indirectinvoke () = %34 (%35) : method(int[])->()
{
printf_s(_35, _35_size);
}
//fieldload %36 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %37 = %36 print : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//lengthof %38 = %4 : byte[]
_38 = a_size;
//indirectinvoke () = %37 (%38) : method(any)->()
{
printf("%"PRId64, _38);
}
//fieldload %39 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %40 = %39 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %41 = [98,121,116,101,115] : int[]
_NEW_1DARRAY_int64_t(_41, 5, 0);
_41[0] = 98; _41[1] = 121; _41[2] = 116; _41[3] = 101; _41[4] = 115;
//indirectinvoke () = %40 (%41) : method(int[])->()
{
println_s(_41, _41_size);
}
//return
exit(0);
}
int main(int argc, char** args){
int64_t* n;
int64_t size;
int64_t width;
int64_t height;
_DECL_1DARRAY(A);
_DECL_1DARRAY(B);
_DECL_1DARRAY(C);
int64_t* _8;
_DECL_2DARRAY(_9);
int64_t _10;
_DECL_1DARRAY(_11);
void* _12;
_DECL_1DARRAY(_14);
void* _15;
int64_t _17;
int64_t _18;
_DECL_1DARRAY(_19);
_DECL_1DARRAY(_20);
int64_t _21;
int64_t _22;
_DECL_1DARRAY(_23);
_DECL_1DARRAY(_24);
int64_t _25;
int64_t _26;
_DECL_1DARRAY(_27);
_DECL_1DARRAY(_28);
void* _29;
int64_t _31;
int64_t _32;
int64_t _33;
int64_t _34;
int64_t _35;
int64_t _36;
int64_t _37;
void* _38;
_DECL_1DARRAY(_40);
//fieldload %9 = %0 args : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
_CONV_ARGS(_9);
//const %10 = 0 : int
_10 = 0;
//indexof %11 = %9, %10 : int[][]
_11=_9[_10];
_11_size = _9_size_size;
//invoke (%8) = (%11) whiley/lang/Int:parse : function(whiley/lang/ASCII:string)->(null|int)
{
_STR_TO_INT(_8, _11);
}
//assign %1 = %8 : null|int
_NEW_INTEGER_POINTER(n, _8);
//ifis %1, null goto blklab10 : null|int
if(n == NULL) { goto blklab10;}
//assign %2 = %1 : int
size = *n;
//assign %3 = %2 : int
width = size;
//assign %4 = %2 : int
height = size;
//fieldload %12 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %13 = %12 print_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %14 = [115,105,122,101,32,61,32] : int[]
_NEW_1DARRAY_int64_t(_14, 7, 0);
_14[0] = 115; _14[1] = 105; _14[2] = 122; _14[3] = 101; _14[4] = 32; _14[5] = 61; _14[6] = 32;
//indirectinvoke () = %13 (%14) : method(int[])->()
{
printf_s(_14, _14_size);
}
//fieldload %15 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %16 = %15 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//indirectinvoke () = %16 (%2) : method(any)->()
{
printf("%"PRId64"\n", size);
}
//const %17 = 0 : int
_17 = 0;
//mul %18 = %3, %4 : int
_18=width*height;
//arraygen %19 = [17; 18] : int[]
_NEW_1DARRAY_int64_t(_19, _18, _17);
//assign %5 = %19 : int[]
_COPY_1DARRAY_int64_t(A, _19);
//invoke (%20) = (%5, %3, %4) MatrixMult_original:init : function(int[],int,int)->(int[])
{
void* tmp_data;
_COPY_1DARRAY_PARAM(A, tmp_data, int64_t);
_20 = _init_(tmp_data, A_size, width, height, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_20));
}
//assign %5 = %20 : int[]
_COPY_1DARRAY_int64_t(A, _20);
//const %21 = 0 : int
_21 = 0;
//mul %22 = %3, %4 : int
_22=width*height;
//arraygen %23 = [21; 22] : int[]
_NEW_1DARRAY_int64_t(_23, _22, _21);
//assign %6 = %23 : int[]
_COPY_1DARRAY_int64_t(B, _23);
//invoke (%24) = (%6, %3, %4) MatrixMult_original:init : function(int[],int,int)->(int[])
{
void* tmp_data;
_COPY_1DARRAY_PARAM(B, tmp_data, int64_t);
_24 = _init_(tmp_data, B_size, width, height, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_24));
}
//assign %6 = %24 : int[]
_COPY_1DARRAY_int64_t(B, _24);
//const %25 = 0 : int
_25 = 0;
//mul %26 = %3, %4 : int
_26=width*height;
//arraygen %27 = [25; 26] : int[]
_NEW_1DARRAY_int64_t(_27, _26, _25);
//assign %7 = %27 : int[]
_COPY_1DARRAY_int64_t(C, _27);
//invoke (%28) = (%5, %6, %7, %3, %4) MatrixMult_original:mat_mult : function(int[],int[],int[],int,int)->(int[])
{
void* tmp_a;
_COPY_1DARRAY_PARAM(A, tmp_a, int64_t);
void* tmp_b;
_COPY_1DARRAY_PARAM(B, tmp_b, int64_t);
void* tmp_data;
_COPY_1DARRAY_PARAM(C, tmp_data, int64_t);
_28 = _mat_mult_(tmp_a, A_size, tmp_b, B_size, tmp_data, C_size, width, height, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_28));
}
//assign %7 = %28 : int[]
_COPY_1DARRAY_int64_t(C, _28);
//fieldload %29 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %30 = %29 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %31 = 1 : int
_31 = 1;
//sub %32 = %2, %31 : int
_32=size-_31;
//mul %33 = %32, %2 : int
_33=_32*size;
//add %34 = %33, %2 : int
_34=_33+size;
//const %35 = 1 : int
_35 = 1;
//sub %36 = %34, %35 : int
_36=_34-_35;
//indexof %37 = %7, %36 : int[]
_37=C[_36];
//indirectinvoke () = %30 (%37) : method(any)->()
{
printf("%"PRId64"\n", _37);
}
//fieldload %38 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %39 = %38 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %40 = [80,97,115,115,32,77,97,116,114,105,120,77,117,108,116,32,116,101,115,116,32,99,97,115,101] : int[]
_NEW_1DARRAY_int64_t(_40, 25, 0);
_40[0] = 80; _40[1] = 97; _40[2] = 115; _40[3] = 115; _40[4] = 32; _40[5] = 77; _40[6] = 97; _40[7] = 116; _40[8] = 114; _40[9] = 105; _40[10] = 120; _40[11] = 77; _40[12] = 117; _40[13] = 108; _40[14] = 116; _40[15] = 32; _40[16] = 116; _40[17] = 101; _40[18] = 115; _40[19] = 116; _40[20] = 32; _40[21] = 99; _40[22] = 97; _40[23] = 115; _40[24] = 101;
//indirectinvoke () = %39 (%40) : method(int[])->()
{
println_s(_40, _40_size);
}
//.blklab10
blklab10:;
//return
exit(0);
}
Match* _findLongestMatch_(BYTE* data, size_t data_size, _DECL_DEALLOC_PARAM(data), int64_t pos){
Match* m;
_DECL_DEALLOC(m);
int64_t bestOffset;
int64_t bestLen;
int64_t start;
int64_t offset;
int64_t len;
int64_t _8;
int64_t _9;
int64_t _10;
int64_t _11;
int64_t _12;
int64_t _13;
int64_t _14;
int64_t _15;
int64_t _16;
int64_t _17;
Match* _18;
_DECL_DEALLOC(_18);
//const %8 = 0 : int
_8 = 0;
//assign %3 = %8 : int
bestOffset = _8;
//const %9 = 0 : int
_9 = 0;
//assign %4 = %9 : int
bestLen = _9;
//const %11 = 255 : int
_11 = 255;
//sub %12 = %1, %11 : int
_12=pos-_11;
//const %13 = 0 : int
_13 = 0;
//invoke (%10) = (%12, %13) whiley/lang/Math:max : function(int,int)->(int)
{
_10 = max(_12, _13);
}
//assign %5 = %10 : int
start = _10;
//assign %6 = %5 : int
offset = start;
//loop (%3, %4, %6, %7, %14, %15, %16, %17)
while(true){
//ifge %6, %1 goto blklab3 : int
if(offset>=pos){goto blklab3;}
//invoke (%14) = (%0, %6, %1) lz77_compress:match : function(byte[],lz77_compress:nat,lz77_compress:nat)->(int)
{
void* tmp_data;
_COPY_1DARRAY_PARAM(data, tmp_data, BYTE);
_14 = _match_(tmp_data, data_size, true, offset, pos);
_CALLEE_DEALLOC(data, "false-false-true" , "match");
}
//assign %7 = %14 : int
len = _14;
//ifle %7, %4 goto blklab5 : int
if(len<=bestLen){goto blklab5;}
//sub %15 = %1, %6 : int
_15=pos-offset;
//assign %3 = %15 : int
bestOffset = _15;
//assign %4 = %7 : int
bestLen = len;
//.blklab5
blklab5:;
//const %16 = 1 : int
_16 = 1;
//add %17 = %6, %16 : int
_17=offset+_16;
//assign %6 = %17 : int
offset = _17;
//.blklab4
blklab4:;
}
//.blklab3
blklab3:;
//newrecord %18 = (%4, %3) : {int len,int offset}
_DEALLOC_STRUCT(_18, Match);
_18 = malloc(sizeof(Match));
_18->len = bestLen;
_18->offset = bestOffset;
_ADD_DEALLOC(_18);
//return %18
_DEALLOC(data);
_DEALLOC_STRUCT(m, Match);
return _18;
//return
}
BYTE* _compress_(BYTE* data, size_t data_size, _DECL_DEALLOC_PARAM(data), _DECL_1DARRAYSIZE_PARAM_CALLBYREFERENCE){
_DECL_1DARRAY_BYTE(output);
_DECL_DEALLOC(output);
int64_t pos;
Match* m;
_DECL_DEALLOC(m);
BYTE offset;
BYTE length;
int64_t _6;
BYTE _7;
int64_t _8;
_DECL_1DARRAY_BYTE(_9);
_DECL_DEALLOC(_9);
int64_t _10;
Match* _11;
_DECL_DEALLOC(_11);
BYTE _12;
int64_t _13;
BYTE _14;
int64_t _15;
BYTE _16;
BYTE _17;
int64_t _18;
int64_t _19;
int64_t _20;
int64_t _21;
_DECL_1DARRAY_BYTE(_22);
_DECL_DEALLOC(_22);
_DECL_1DARRAY_BYTE(_23);
_DECL_DEALLOC(_23);
int64_t _24;
int64_t _25;
int64_t _26;
int64_t _27;
int64_t _28;
int64_t _29;
int64_t _30;
int64_t _31;
int64_t _32;
_DECL_1DARRAY_BYTE(_33);
_DECL_DEALLOC(_33);
//const %6 = 0 : int
_6 = 0;
//assign %2 = %6 : int
pos = _6;
//const %7 = 00000000b : byte
_7 = 0b00000000;
//const %8 = 0 : int
_8 = 0;
//const %24 = 2 : int
_24 = 2;
//lengthof %25 = %0 : byte[]
_25 = data_size;
//mul %26 = %24, %25 : int
_26=_24*_25;
//arraygen %9 = [7; 26] : byte[]
_DEALLOC(_9);
_NEW_1DARRAY_BYTE(_9, _26, _7);
_ADD_DEALLOC(_9);
//const %27 = 0 : int
_27 = 0;
//assign %28 = %27 : int
_28 = _27;
//assign %1 = %9 : byte[]
_DEALLOC(output);
_COPY_1DARRAY_BYTE(output, _9);
_ADD_DEALLOC(output);
//loop (%1, %2, %3, %4, %5, %10, %11, %12, %13, %14, %15, %16, %17, %18, %19, %20, %21, %22, %23, %28)
while(true){
//lengthof %10 = %0 : byte[]
_10 = data_size;
//ifge %2, %10 goto blklab12 : int
if(pos>=_10){goto blklab12;}
//invoke (%11) = (%0, %2) lz77_compress:findLongestMatch : function(byte[],lz77_compress:nat)->(lz77_compress:Match)
{
void* tmp_data;
_COPY_1DARRAY_PARAM(data, tmp_data, BYTE);
_DEALLOC_STRUCT(_11, Match);
_11 = _findLongestMatch_(tmp_data, data_size, true, pos);
_CALLEE_DEALLOC(data, "false-false-true" , "findLongestMatch");
_CALLEE_DEALLOC_POST(_11, data);
}
//assign %3 = %11 : {int len,int offset}
_DEALLOC_STRUCT(m, Match);
m = copy_Match(_11);
_ADD_DEALLOC(m);
//fieldload %13 = %3 offset : {int len,int offset}
_13 = m->offset;
//invoke (%12) = (%13) whiley/lang/Int:toUnsignedByte : function(whiley/lang/Int:u8)->(byte)
{
_12 = (BYTE)_13;
}
//assign %4 = %12 : byte
offset = _12;
//fieldload %15 = %3 len : {int len,int offset}
_15 = m->len;
//invoke (%14) = (%15) whiley/lang/Int:toUnsignedByte : function(whiley/lang/Int:u8)->(byte)
{
_14 = (BYTE)_15;
}
//assign %5 = %14 : byte
length = _14;
//const %16 = 00000000b : byte
_16 = 0b00000000;
//ifne %4, %16 goto blklab14 : byte
if(offset!=_16){goto blklab14;}
//indexof %17 = %0, %2 : byte[]
_17=data[pos];
//assign %5 = %17 : byte
length = _17;
//const %18 = 1 : int
_18 = 1;
//add %19 = %2, %18 : int
_19=pos+_18;
//assign %2 = %19 : int
pos = _19;
//goto blklab15
goto blklab15;
//.blklab14
blklab14:;
//fieldload %20 = %3 len : {int len,int offset}
_20 = m->len;
//add %21 = %2, %20 : int
_21=pos+_20;
//assign %2 = %21 : int
pos = _21;
//.blklab15
blklab15:;
//update %1[%28] = %4 : byte[] -> byte[]
output[_28] = offset;
//const %29 = 1 : int
_29 = 1;
//add %30 = %28, %29 : int
_30=_28+_29;
//assign %28 = %30 : int
_28 = _30;
//update %1[%28] = %5 : byte[] -> byte[]
output[_28] = length;
//const %31 = 1 : int
_31 = 1;
//add %32 = %28, %31 : int
_32=_28+_31;
//assign %28 = %32 : int
_28 = _32;
//.blklab13
blklab13:;
}
//.blklab12
blklab12:;
//invoke (%33) = (%1, %28) lz77_compress:resize : function(byte[],int)->(byte[])
{
void* tmp_items;
_COPY_1DARRAY_PARAM(output, tmp_items, BYTE);
_DEALLOC(_33);
_33 = _resize_(tmp_items, output_size, true, _28, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_33));
_CALLEE_DEALLOC(output, "false-false-false" , "resize");
_CALLEE_DEALLOC_POST(_33, output);
}
//assign %1 = %33 : byte[]
_DEALLOC(output);
_COPY_1DARRAY_BYTE(output, _33);
_ADD_DEALLOC(output);
//return %1
_DEALLOC(data);
_DEALLOC_STRUCT(m, Match);
_DEALLOC(_9);
_DEALLOC_STRUCT(_11, Match);
_DEALLOC(_22);
_DEALLOC(_23);
_DEALLOC(_33);
_UPDATE_1DARRAYSZIE_PARAM_CALLBYREFERENCE(output);
return output;
//return
}
int main(int argc, char** args){
_DECL_1DARRAY(a);
_DECL_DEALLOC(a);
_DECL_1DARRAY(b);
_DECL_DEALLOC(b);
_DECL_1DARRAY(c);
_DECL_DEALLOC(c);
_DECL_1DARRAY(r);
_DECL_DEALLOC(r);
int64_t _5;
int64_t _6;
_DECL_1DARRAY(_7);
_DECL_DEALLOC(_7);
int64_t _8;
int64_t _9;
_DECL_1DARRAY(_10);
_DECL_DEALLOC(_10);
int64_t _11;
int64_t _12;
_DECL_1DARRAY(_13);
_DECL_DEALLOC(_13);
_DECL_1DARRAY(_14);
_DECL_DEALLOC(_14);
void* _15;
int64_t _17;
int64_t _18;
void* _19;
int64_t _21;
int64_t _22;
void* _23;
int64_t _25;
int64_t _26;
//const %5 = 2 : int
_5 = 2;
//const %6 = 2 : int
_6 = 2;
//arraygen %7 = [5; 6] : int[]
_NEW1DARRAY_DEALLOC(_7, _5, _6, int64_t);
//assign %1 = %7 : int[]
// isCopyEliminated = true
_TRANSFER_DEALLOC(a, _7);
//const %8 = 2 : int
_8 = 2;
//const %9 = 2 : int
_9 = 2;
//arraygen %10 = [8; 9] : int[]
_NEW1DARRAY_DEALLOC(_10, _8, _9, int64_t);
//assign %2 = %10 : int[]
// isCopyEliminated = true
_TRANSFER_DEALLOC(b, _10);
//const %11 = 2 : int
_11 = 2;
//const %12 = 2 : int
_12 = 2;
//arraygen %13 = [11; 12] : int[]
_NEW1DARRAY_DEALLOC(_13, _11, _12, int64_t);
//assign %3 = %13 : int[]
// isCopyEliminated = true
_TRANSFER_DEALLOC(c, _13);
//invoke (%14) = (%1, %2, %3) 3parameter_test63:func : function(int[],int[],int[])->(int[])
{
_FUNCTIONCALL_COPY_PRE(_14, c, "true-NEVER_RETURN-true" , "func");
_FUNCTIONCALL_COPY_PRE(_14, b, "false-MAYBE_RETURN-true" , "func");
_FUNCTIONCALL_COPY_PRE(_14, a, "true-NEVER_RETURN-true" , "func");
_DEALLOC(_14);
void* tmp_a;
_COPY_1DARRAY_PARAM(a, tmp_a, int64_t);
void* tmp_b;
_COPY_1DARRAY_PARAM(b, tmp_b, int64_t);
void* tmp_c;
_COPY_1DARRAY_PARAM(c, tmp_c, int64_t);
// isCopyEliminated of '_1' = false
// isCopyEliminated of '_2' = false
// isCopyEliminated of '_3' = false
_14 = _func_(tmp_a, a_size, tmp_b, b_size, tmp_c, c_size, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_14));
if( _14 == tmp_b ){
_14_dealloc = true;
free(tmp_a);
free(tmp_c);
} else {
_14_dealloc = true;
free(tmp_a);
free(tmp_b);
free(tmp_c);
}
}
//assign %4 = %14 : int[]
// isCopyEliminated = true
_TRANSFER_DEALLOC(r, _14);
//fieldload %15 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %16 = %15 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %17 = 0 : int
_17 = 0;
//indexof %18 = %1, %17 : int[]
_18=a[_17];
//indirectinvoke () = %16 (%18) : method(any)->()
{
printf("%"PRId64"\n", _18);
}
//fieldload %19 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %20 = %19 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %21 = 0 : int
_21 = 0;
//indexof %22 = %2, %21 : int[]
_22=b[_21];
//indirectinvoke () = %20 (%22) : method(any)->()
{
printf("%"PRId64"\n", _22);
}
//fieldload %23 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %24 = %23 println : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %25 = 0 : int
_25 = 0;
//indexof %26 = %3, %25 : int[]
_26=c[_25];
//indirectinvoke () = %24 (%26) : method(any)->()
{
printf("%"PRId64"\n", _26);
}
//return
_DEALLOC(a);
_DEALLOC(b);
_DEALLOC(c);
_DEALLOC(r);
_DEALLOC(_7);
_DEALLOC(_10);
_DEALLOC(_13);
_DEALLOC(_14);
exit(0);
}
int main(int argc, char** args){
FILE* file;
_DECL_1DARRAY_BYTE(input_data);
_DECL_DEALLOC(input_data);
_DECL_1DARRAY_BYTE(decompress_data);
_DECL_DEALLOC(decompress_data);
void* _4;
_DECL_DEALLOC(_4);
_DECL_1DARRAY(_5);
_DECL_DEALLOC(_5);
_DECL_1DARRAY_BYTE(_6);
_DECL_DEALLOC(_6);
_DECL_1DARRAY_BYTE(_8);
_DECL_DEALLOC(_8);
void* _9;
_DECL_1DARRAY(_11);
_DECL_DEALLOC(_11);
void* _12;
_DECL_1DARRAY(_14);
_DECL_DEALLOC(_14);
void* _15;
int64_t _17;
void* _18;
_DECL_1DARRAY(_20);
_DECL_DEALLOC(_20);
//const %5 = [46,46,47,46,46,47,46,46,47,73,110,112,117,116,102,105,108,101,115,47,115,109,97,108,108,46,100,97,116] : int[]
_DEALLOC(_5);
_NEW_1DARRAY_int64_t(_5, 29, 0);
_5[0] = 46; _5[1] = 46; _5[2] = 47; _5[3] = 46; _5[4] = 46; _5[5] = 47; _5[6] = 46; _5[7] = 46; _5[8] = 47; _5[9] = 73; _5[10] = 110; _5[11] = 112; _5[12] = 117; _5[13] = 116; _5[14] = 102; _5[15] = 105; _5[16] = 108; _5[17] = 101; _5[18] = 115; _5[19] = 47; _5[20] = 115; _5[21] = 109; _5[22] = 97; _5[23] = 108; _5[24] = 108; _5[25] = 46; _5[26] = 100; _5[27] = 97; _5[28] = 116;
_5_dealloc = true;
//invoke (%4) = (%5) whiley/io/File:Reader : method(whiley/lang/ASCII:string)->(whiley/io/File:Reader)
{
_4 = Reader(_5, _5_size);
}
//assign %1 = %4 : {method()->(int) available,method()->() close,method()->(bool) hasMore,method(int)->(byte[]) read,method()->(byte[]) readAll}
file = _4;
//fieldload %7 = %1 readAll : {method()->(int) available,method()->() close,method()->(bool) hasMore,method(int)->(byte[]) read,method()->(byte[]) readAll}
//indirectinvoke (%6) = %7 () : method()->(byte[])
{
_6 = readAll(file, &_6_size);
_6_dealloc = true;
}
//assign %2 = %6 : byte[]
_ADD_DEALLOC(input_data, _6, BYTE);
//invoke (%8) = (%2) lz77_decompress:decompress : function(byte[])->(byte[])
{
_FUNCTIONCALL_COPY_PRE(_8, input_data, 0, "liveness: input_data = false, readonly: input_data = true, return:input_data = NEVER_RETURN" , "decompress");
_DEALLOC(_8);
void* tmp_data;
_COPY_1DARRAY_PARAM(input_data, tmp_data, BYTE);
_8 = _decompress_(tmp_data, input_data_size, _1DARRAYSIZE_PARAM_CALLBYREFERENCE(_8));
_8_dealloc = true;
free(tmp_data);
}
//assign %3 = %8 : byte[]
_ADD_DEALLOC(decompress_data, _8, BYTE);
//fieldload %9 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %10 = %9 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %11 = [68,69,67,79,77,80,82,69,83,83,69,68,58,32,32,32] : int[]
_DEALLOC(_11);
_NEW_1DARRAY_int64_t(_11, 16, 0);
_11[0] = 68; _11[1] = 69; _11[2] = 67; _11[3] = 79; _11[4] = 77; _11[5] = 80; _11[6] = 82; _11[7] = 69; _11[8] = 83; _11[9] = 83; _11[10] = 69; _11[11] = 68; _11[12] = 58; _11[13] = 32; _11[14] = 32; _11[15] = 32;
_11_dealloc = true;
//indirectinvoke () = %10 (%11) : method(int[])->()
{
println_s(_11, _11_size);
}
//fieldload %12 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %13 = %12 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//invoke (%14) = (%3) whiley/lang/ASCII:fromBytes : function(byte[])->(whiley/lang/ASCII:string)
{
_DEALLOC(_14);
_14 = fromBytes(decompress_data, decompress_data_size);
_14_size = decompress_data_size;
_14_dealloc = true;
}
//indirectinvoke () = %13 (%14) : method(int[])->()
{
println_s(_14, _14_size);
}
//fieldload %15 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %16 = %15 print : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//lengthof %17 = %3 : byte[]
_17 = decompress_data_size;
//indirectinvoke () = %16 (%17) : method(any)->()
{
printf("%"PRId64, _17);
}
//fieldload %18 = %0 out : {int[][] args,{method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s} out}
//fieldload %19 = %18 println_s : {method(any)->() print,method(int[])->() print_s,method(any)->() println,method(int[])->() println_s}
//const %20 = [32,98,121,116,101,115] : int[]
_DEALLOC(_20);
_NEW_1DARRAY_int64_t(_20, 6, 0);
_20[0] = 32; _20[1] = 98; _20[2] = 121; _20[3] = 116; _20[4] = 101; _20[5] = 115;
_20_dealloc = true;
//indirectinvoke () = %19 (%20) : method(int[])->()
{
println_s(_20, _20_size);
}
//fieldload %21 = %1 close : {method()->(int) available,method()->() close,method()->(bool) hasMore,method(int)->(byte[]) read,method()->(byte[]) readAll}
//indirectinvoke () = %21 () : method()->()
{
fclose(file);
file = NULL;
}
//return
if(file != NULL){fclose(file); file = NULL;}
_DEALLOC(input_data);
_DEALLOC(decompress_data);
_DEALLOC(_5);
_DEALLOC(_6);
_DEALLOC(_8);
_DEALLOC(_11);
_DEALLOC(_14);
_DEALLOC(_20);
exit(0);
}