SliceFusion/output/module_fusion_text.cbe.c

/* Provide Declarations */
#include <stdint.h>
#include <math.h>
#ifndef __cplusplus
typedef unsigned char bool;
#endif

typedef uint64_t ConstantDoubleTy;
/* get a declaration for alloca */
#if defined(__CYGWIN__) || defined(__MINGW32__)
#define  alloca(x) __builtin_alloca((x))
#define _alloca(x) __builtin_alloca((x))
#elif defined(__APPLE__)
extern void *__builtin_alloca(unsigned long);
#define alloca(x) __builtin_alloca(x)
#define longjmp _longjmp
#define setjmp _setjmp
#elif defined(__sun__)
#if defined(__sparcv9)
extern void *__builtin_alloca(unsigned long);
#else
extern void *__builtin_alloca(unsigned int);
#endif
#define alloca(x) __builtin_alloca(x)
#elif defined(__FreeBSD__) || defined(__NetBSD__) || defined(__OpenBSD__) || defined(__DragonFly__) || defined(__arm__)
#define alloca(x) __builtin_alloca(x)
#elif defined(_MSC_VER)
#define alloca(x) _alloca(x)
#else
#include <alloca.h>
#endif

#ifndef _MSC_VER
#define __forceinline __attribute__((always_inline)) inline
#endif

#if defined(__GNUC__)
#define  __ATTRIBUTELIST__(x) __attribute__(x)
#else
#define  __ATTRIBUTELIST__(x)  
#endif

#ifdef _MSC_VER  /* Can only support "linkonce" vars with GCC */
#define __attribute__(X)
#endif

#ifdef _MSC_VER
#define __PREFIXALIGN__(X) __declspec(align(X))
#define __POSTFIXALIGN__(X)
#else
#define __PREFIXALIGN__(X)
#define __POSTFIXALIGN__(X) __attribute__((aligned(X)))
#endif

static __forceinline int llvm_fcmp_uno(double X, double Y) { return X != X || Y != Y; }
static __forceinline int llvm_fcmp_ole(double X, double Y) { return X <= Y; }
static __forceinline int llvm_fcmp_ogt(double X, double Y) { return X >  Y; }
static __forceinline int llvm_fcmp_oeq(double X, double Y) { return X == Y; }


/* Global Declarations */
/* Helper union for bitcasts */
typedef union {
  uint32_t Int32;
  uint64_t Int64;
  float Float;
  double Double;
} llvmBitCastUnion;

/* Types Declarations */
struct l_array_20_uint8_t;
struct l_struct_struct_OC_DynamicArray;
struct l_struct_struct_OC_Matrix;
struct l_struct_struct_OC_Node;
struct l_array_256_uint8_t;
struct l_struct_struct_OC_Point;
struct l_struct_struct_OC_Circle;
struct l_struct_fused_return_projectA_main_memoizedFib;
struct l_struct_fused_return_createDynamicArray_processMatrix;
struct l_array_9_uint8_t;
struct l_array_55_uint8_t;
struct l_array_33_uint8_t;
struct l_array_29_uint8_t;
struct l_array_36_uint8_t;
struct l_array_31_uint8_t;
struct l_array_25_uint8_t;
struct l_array_46_uint8_t;
struct l_array_49_uint8_t;
struct l_array_35_uint8_t;
struct l_array_19_uint8_t;
struct l_array_27_uint8_t;
struct l_array_32_uint8_t;
struct l_array_39_uint8_t;
struct l_array_28_uint8_t;
struct l_array_43_uint8_t;
struct l_array_41_uint8_t;
struct l_array_44_uint8_t;
struct l_array_45_uint8_t;
struct l_array_42_uint8_t;
struct l_array_38_uint8_t;
struct l_array_34_uint8_t;
struct l_array_30_uint8_t;
struct l_array_11_uint8_t;
struct l_array_22_uint8_t;
struct l_array_15_uint8_t;
struct l_array_24_uint8_t;
struct l_array_26_uint8_t;
struct l_array_17_uint8_t;
struct l_array_14_uint8_t;
struct l_array_21_uint8_t;
struct l_array_16_uint8_t;
struct l_array_100_uint32_t;
struct l_array_8_uint32_t;
struct l_array_97_uint32_t;
struct l_unnamed_2;
struct l_array_97_struct_AC_l_unnamed_2;
struct l_unnamed_1;
struct l_array_100_struct_AC_l_array_100_uint32_t;

/* Function definitions */

/* Types Definitions */
struct l_array_20_uint8_t {
  uint8_t array[20];
};
struct l_struct_struct_OC_DynamicArray {
  void* field0;
  uint32_t field1;
  uint32_t field2;
  uint32_t field3;
  uint32_t field4;
};
struct l_struct_struct_OC_Matrix {
  void* field0;
  uint32_t field1;
  uint32_t field2;
  uint32_t field3;
  double field4;
};
struct l_struct_struct_OC_Node {
  uint32_t field0;
  void* field1;
  void* field2;
  uint32_t field3;
  uint32_t field4;
};
struct l_array_256_uint8_t {
  uint8_t array[256];
};
struct l_struct_struct_OC_Point {
  uint32_t field0;
  uint32_t field1;
  struct l_array_256_uint8_t field2;
  double field3;
};
struct l_struct_struct_OC_Circle {
  struct l_struct_struct_OC_Point field0;
  double field1;
  uint32_t field2;
  struct l_array_256_uint8_t field3;
};
struct l_struct_fused_return_projectA_main_memoizedFib {
  uint32_t field0;
  uint32_t field1;
};
struct l_struct_fused_return_createDynamicArray_processMatrix {
  uint32_t field0;
  void* field1;
};
struct l_array_9_uint8_t {
  uint8_t array[9];
};
struct l_array_55_uint8_t {
  uint8_t array[55];
};
struct l_array_33_uint8_t {
  uint8_t array[33];
};
struct l_array_29_uint8_t {
  uint8_t array[29];
};
struct l_array_36_uint8_t {
  uint8_t array[36];
};
struct l_array_31_uint8_t {
  uint8_t array[31];
};
struct l_array_25_uint8_t {
  uint8_t array[25];
};
struct l_array_46_uint8_t {
  uint8_t array[46];
};
struct l_array_49_uint8_t {
  uint8_t array[49];
};
struct l_array_35_uint8_t {
  uint8_t array[35];
};
struct l_array_19_uint8_t {
  uint8_t array[19];
};
struct l_array_27_uint8_t {
  uint8_t array[27];
};
struct l_array_32_uint8_t {
  uint8_t array[32];
};
struct l_array_39_uint8_t {
  uint8_t array[39];
};
struct l_array_28_uint8_t {
  uint8_t array[28];
};
struct l_array_43_uint8_t {
  uint8_t array[43];
};
struct l_array_41_uint8_t {
  uint8_t array[41];
};
struct l_array_44_uint8_t {
  uint8_t array[44];
};
struct l_array_45_uint8_t {
  uint8_t array[45];
};
struct l_array_42_uint8_t {
  uint8_t array[42];
};
struct l_array_38_uint8_t {
  uint8_t array[38];
};
struct l_array_34_uint8_t {
  uint8_t array[34];
};
struct l_array_30_uint8_t {
  uint8_t array[30];
};
struct l_array_11_uint8_t {
  uint8_t array[11];
};
struct l_array_22_uint8_t {
  uint8_t array[22];
};
struct l_array_15_uint8_t {
  uint8_t array[15];
};
struct l_array_24_uint8_t {
  uint8_t array[24];
};
struct l_array_26_uint8_t {
  uint8_t array[26];
};
struct l_array_17_uint8_t {
  uint8_t array[17];
};
struct l_array_14_uint8_t {
  uint8_t array[14];
};
struct l_array_21_uint8_t {
  uint8_t array[21];
};
struct l_array_16_uint8_t {
  uint8_t array[16];
};
struct l_array_100_uint32_t {
  uint32_t array[100];
};
struct l_array_8_uint32_t {
  uint32_t array[8];
};
struct l_array_97_uint32_t {
  uint32_t array[97];
};
#ifdef _MSC_VER
#pragma pack(push, 1)
#endif
struct l_unnamed_2 {
  uint32_t field0;
  uint32_t field1;
  uint32_t field2;
  struct l_array_97_uint32_t field3;
} __attribute__ ((packed));
#ifdef _MSC_VER
#pragma pack(pop)
#endif
struct l_array_97_struct_AC_l_unnamed_2 {
  struct l_unnamed_2 array[97];
};
#ifdef _MSC_VER
#pragma pack(push, 1)
#endif
struct l_unnamed_1 {
  struct l_unnamed_2 field0;
  struct l_unnamed_2 field1;
  struct l_unnamed_2 field2;
  struct l_array_97_struct_AC_l_unnamed_2 field3;
} __attribute__ ((packed));
#ifdef _MSC_VER
#pragma pack(pop)
#endif
struct l_array_100_struct_AC_l_array_100_uint32_t {
  struct l_array_100_uint32_t array[100];
};

/* Global Variable Declarations */
extern uint32_t globalCounter;
extern void* globalErrorMessage;
extern uint32_t recursionDepth;
const static struct l_array_9_uint8_t _OC_str;
extern void* stderr;
const static struct l_array_55_uint8_t _OC_str_OC_1;
const static struct l_array_33_uint8_t _OC_str_OC_2;
const static struct l_array_29_uint8_t _OC_str_OC_3;
const static struct l_array_36_uint8_t _OC_str_OC_4;
const static struct l_array_31_uint8_t _OC_str_OC_5;
const static struct l_array_25_uint8_t _OC_str_OC_6;
const static struct l_array_46_uint8_t _OC_str_OC_7;
const static struct l_array_49_uint8_t _OC_str_OC_8;
const static struct l_array_35_uint8_t _OC_str_OC_9;
const static struct l_array_19_uint8_t _OC_str_OC_10;
const static struct l_array_25_uint8_t _OC_str_OC_11;
const static struct l_array_27_uint8_t _OC_str_OC_12;
const static struct l_array_46_uint8_t _OC_str_OC_13;
const static struct l_array_32_uint8_t _OC_str_OC_14;
const static struct l_array_39_uint8_t _OC_str_OC_15;
const static struct l_array_28_uint8_t _OC_str_OC_16;
const static struct l_array_46_uint8_t _OC_str_OC_17;
const static struct l_array_43_uint8_t _OC_str_OC_18;
const static struct l_array_41_uint8_t _OC_str_OC_19;
const static struct l_array_44_uint8_t _OC_str_OC_20;
const static struct l_array_20_uint8_t _OC_str_OC_21;
const static struct l_array_20_uint8_t _OC_str_OC_22;
const static struct l_array_45_uint8_t _OC_str_OC_23;
const static struct l_array_42_uint8_t _OC_str_OC_24;
const static struct l_array_38_uint8_t _OC_str_OC_25;
static uint32_t insertNode_OC_maxDepth;
const static struct l_array_34_uint8_t _OC_str_OC_26;
static uint32_t calculationResult;
const static struct l_array_30_uint8_t _OC_str_OC_27;
const static struct l_array_11_uint8_t _OC_str_OC_28;
const static struct l_array_29_uint8_t _OC_str_OC_29;
const static struct l_array_33_uint8_t _OC_str_OC_30;
const static struct l_array_43_uint8_t _OC_str_OC_31;
const static struct l_array_22_uint8_t _OC_str_OC_32;
const static struct l_array_31_uint8_t _OC_str_OC_33;
const static struct l_array_30_uint8_t _OC_str_OC_34;
const static struct l_array_36_uint8_t _OC_str_OC_35;
const static struct l_array_15_uint8_t _OC_str_OC_36;
const static struct l_array_22_uint8_t _OC_str_OC_37;
const static struct l_array_24_uint8_t _OC_str_OC_38;
const static struct l_array_45_uint8_t _OC_str_OC_39;
const static struct l_array_26_uint8_t _OC_str_OC_40;
const static struct l_array_9_uint8_t _OC_str_OC_41;
const static struct l_array_9_uint8_t _OC_str_OC_42;
const static struct l_array_35_uint8_t _OC_str_OC_43;
const static struct l_array_20_uint8_t _OC_str_OC_44;
const static struct l_array_17_uint8_t _OC_str_OC_45;
const static struct l_array_28_uint8_t _OC_str_OC_46;
const static struct l_array_27_uint8_t _OC_str_OC_47;
const static struct l_array_32_uint8_t _OC_str_OC_48;
const static struct l_array_14_uint8_t _OC_str_OC_49;
const static struct l_array_21_uint8_t _OC_str_OC_50;
const static struct l_array_16_uint8_t _OC_str_OC_51;
const static struct l_array_39_uint8_t _OC_str_OC_52;
const static struct l_array_21_uint8_t _OC_str_OC_53;
const static struct l_array_30_uint8_t _OC_str_OC_54;
const static struct l_array_21_uint8_t _OC_str_OC_55;
const static struct l_array_9_uint8_t _OC_str_OC_56;
static __PREFIXALIGN__(16) struct l_array_100_uint32_t cache __POSTFIXALIGN__(16);
const static struct l_array_14_uint8_t __const_OC_projectB_main_OC_str;
const static __PREFIXALIGN__(16) struct l_array_8_uint32_t __const_OC_projectB_main_OC_arr __POSTFIXALIGN__(16);
const static __PREFIXALIGN__(16) struct l_unnamed_1 __const_OC_projectB_main_OC_matrix __POSTFIXALIGN__(16);

/* Function Declarations */
void* getErrorMessage(void) __ATTRIBUTELIST__((noinline, nothrow));
void free(void* _1484) __ATTRIBUTELIST__((nothrow));
void* strdup(void* _1485) __ATTRIBUTELIST__((nothrow));
uint32_t fprintf(void* _1486, void* _1487, ...);
uint32_t factorial(uint32_t _7) __ATTRIBUTELIST__((noinline, nothrow));
void* malloc(uint64_t _1488) __ATTRIBUTELIST__((nothrow));
void pushBack(void* _50, uint32_t _51) __ATTRIBUTELIST__((noinline, nothrow));
void* realloc(void* _1489, uint64_t _1490) __ATTRIBUTELIST__((nothrow));
void* calloc(uint64_t _1491, uint64_t _1492) __ATTRIBUTELIST__((nothrow));
void* multiplyMatrices(void* _111, void* _112) __ATTRIBUTELIST__((noinline, nothrow));
uint32_t abs(uint32_t _1493) __ATTRIBUTELIST__((nothrow));
void* insertNode(void* _251, uint32_t _252) __ATTRIBUTELIST__((noinline, nothrow));
uint32_t printf(void* _1494, ...);
uint64_t time(void* _1495) __ATTRIBUTELIST__((nothrow));
void srand(uint32_t _1496) __ATTRIBUTELIST__((nothrow));
uint32_t rand(void) __ATTRIBUTELIST__((nothrow));
double calculateDistance(struct l_struct_struct_OC_Point _323, struct l_struct_struct_OC_Point _324, void* _325) __ATTRIBUTELIST__((noinline, nothrow));
double calculateCircleArea(struct l_struct_struct_OC_Circle _390, void* _391) __ATTRIBUTELIST__((noinline, nothrow));
uint32_t strcmp(void* _1497, void* _1498) __ATTRIBUTELIST__((nothrow));
uint32_t validateMatrix(void* _449) __ATTRIBUTELIST__((noinline, nothrow));
void* findCentroid(void* _504, uint32_t _505, void* _506) __ATTRIBUTELIST__((noinline, nothrow));
void* strcpy(void* _1499, void* _1500) __ATTRIBUTELIST__((nothrow));
uint64_t strlen(void* _1501) __ATTRIBUTELIST__((nothrow));
uint32_t fused_quickSort(bool _610, void* _611, uint32_t _612, uint32_t _613, void* _614, uint32_t _615);
uint32_t fused_performSimpleCalculations(bool _796, void* _797, uint32_t _798);
struct l_struct_fused_return_projectA_main_memoizedFib fused_projectA_main(bool _904, uint32_t _905);
struct l_struct_fused_return_createDynamicArray_processMatrix fused_createDynamicArray(bool _1151, uint32_t _1152, void* _1153, uint32_t _1154);
uint32_t fused_setErrorMessage(bool _1242, void* _1243);
void* fused_createMatrix(bool _1301, uint32_t _1302, uint32_t _1303, void* _1304);
uint32_t fused_removeDuplicates(bool _1409, void* _1410, uint32_t _1411);
void* memset(void* _1502, uint32_t _1503, uint64_t _1504);
void* memcpy(void* _1505, void* _1506, uint64_t _1507);


/* Global Variable Definitions and Initialization */
uint32_t globalCounter;
void* globalErrorMessage;
uint32_t recursionDepth;
static const struct l_array_9_uint8_t _OC_str = { "No error" };
static const struct l_array_55_uint8_t _OC_str_OC_1 = { "Critical: Failed to allocate memory for error message\n" };
static const struct l_array_33_uint8_t _OC_str_OC_2 = { "Maximum recursion depth exceeded" };
static const struct l_array_29_uint8_t _OC_str_OC_3 = { "Factorial of negative number" };
static const struct l_array_36_uint8_t _OC_str_OC_4 = { "Input too large, potential overflow" };
static const struct l_array_31_uint8_t _OC_str_OC_5 = { "Factorial calculation overflow" };
static const struct l_array_25_uint8_t _OC_str_OC_6 = { "Invalid initial capacity" };
static const struct l_array_46_uint8_t _OC_str_OC_7 = { "Initial capacity exceeds maximum allowed size" };
static const struct l_array_49_uint8_t _OC_str_OC_8 = { "Memory allocation failed for DynamicArray struct" };
static const struct l_array_35_uint8_t _OC_str_OC_9 = { "Memory allocation failed for array" };
static const struct l_array_19_uint8_t _OC_str_OC_10 = { "Null array pointer" };
static const struct l_array_25_uint8_t _OC_str_OC_11 = { "Array size limit reached" };
static const struct l_array_27_uint8_t _OC_str_OC_12 = { "Memory reallocation failed" };
static const struct l_array_46_uint8_t _OC_str_OC_13 = { "Maximum recursion depth exceeded in quickSort" };
static const struct l_array_32_uint8_t _OC_str_OC_14 = { "Null array pointer in quickSort" };
static const struct l_array_39_uint8_t _OC_str_OC_15 = { "Array index out of bounds in quickSort" };
static const struct l_array_28_uint8_t _OC_str_OC_16 = { "Matrix dimensions too small" };
static const struct l_array_46_uint8_t _OC_str_OC_17 = { "Matrix dimensions exceed maximum allowed size" };
static const struct l_array_43_uint8_t _OC_str_OC_18 = { "Memory allocation failed for matrix struct" };
static const struct l_array_41_uint8_t _OC_str_OC_19 = { "Memory allocation failed for matrix rows" };
static const struct l_array_44_uint8_t _OC_str_OC_20 = { "Memory allocation failed for matrix columns" };
static const struct l_array_20_uint8_t _OC_str_OC_21 = { "Null matrix pointer" };
static const struct l_array_20_uint8_t _OC_str_OC_22 = { "Invalid matrix data" };
static const struct l_array_45_uint8_t _OC_str_OC_23 = { "Invalid matrix dimensions for multiplication" };
static const struct l_array_42_uint8_t _OC_str_OC_24 = { "Integer overflow in matrix multiplication" };
static const struct l_array_38_uint8_t _OC_str_OC_25 = { "Memory allocation failed for new node" };
static uint32_t insertNode_OC_maxDepth;
static const struct l_array_34_uint8_t _OC_str_OC_26 = { "List exceeds maximum allowed size" };
static uint32_t calculationResult;
static const struct l_array_30_uint8_t _OC_str_OC_27 = { "Final calculation result: %d\n" };
static const struct l_array_11_uint8_t _OC_str_OC_28 = { "Error: %s\n" };
static const struct l_array_29_uint8_t _OC_str_OC_29 = { "Error during array push: %s\n" };
static const struct l_array_33_uint8_t _OC_str_OC_30 = { "Error during list insertion: %s\n" };
static const struct l_array_43_uint8_t _OC_str_OC_31 = { "Circular reference detected in linked list" };
static const struct l_array_22_uint8_t _OC_str_OC_32 = { "Invalid point weights" };
static const struct l_array_31_uint8_t _OC_str_OC_33 = { "Coordinates out of valid range" };
static const struct l_array_30_uint8_t _OC_str_OC_34 = { "Distance calculation overflow" };
static const struct l_array_36_uint8_t _OC_str_OC_35 = { "Invalid distance calculation result" };
static const struct l_array_15_uint8_t _OC_str_OC_36 = { "Invalid circle" };
static const struct l_array_22_uint8_t _OC_str_OC_37 = { "Invalid circle radius" };
static const struct l_array_24_uint8_t _OC_str_OC_38 = { "Circle radius too large" };
static const struct l_array_45_uint8_t _OC_str_OC_39 = { "Circle center coordinates out of valid range" };
static const struct l_array_26_uint8_t _OC_str_OC_40 = { "Area calculation overflow" };
static const struct l_array_9_uint8_t _OC_str_OC_41 = { "standard" };
static const struct l_array_9_uint8_t _OC_str_OC_42 = { "weighted" };
static const struct l_array_35_uint8_t _OC_str_OC_43 = { "Invalid weight for weighted circle" };
static const struct l_array_20_uint8_t _OC_str_OC_44 = { "Unknown circle type" };
static const struct l_array_17_uint8_t _OC_str_OC_45 = { "Null matrix data" };
static const struct l_array_28_uint8_t _OC_str_OC_46 = { "Matrix dimensions too large" };
static const struct l_array_27_uint8_t _OC_str_OC_47 = { "Invalid matrix row pointer" };
static const struct l_array_32_uint8_t _OC_str_OC_48 = { "Inconsistent square matrix flag" };
static const struct l_array_14_uint8_t _OC_str_OC_49 = { "Invalid array" };
static const struct l_array_21_uint8_t _OC_str_OC_50 = { "Invalid points array" };
static const struct l_array_16_uint8_t _OC_str_OC_51 = { "Too many points" };
static const struct l_array_39_uint8_t _OC_str_OC_52 = { "Failed to allocate memory for centroid" };
static const struct l_array_21_uint8_t _OC_str_OC_53 = { "Invalid point weight" };
static const struct l_array_30_uint8_t _OC_str_OC_54 = { "Centroid calculation overflow" };
static const struct l_array_21_uint8_t _OC_str_OC_55 = { "Total weight is zero" };
static const struct l_array_9_uint8_t _OC_str_OC_56 = { "Centroid" };
static __PREFIXALIGN__(16) struct l_array_100_uint32_t cache __POSTFIXALIGN__(16);
static const struct l_array_14_uint8_t __const_OC_projectB_main_OC_str = { "Hello, World!" };
static const __PREFIXALIGN__(16) struct l_array_8_uint32_t __const_OC_projectB_main_OC_arr __POSTFIXALIGN__(16) = { { 10, 22, 9, 33, 21, 50, 41, 60 } };
static const __PREFIXALIGN__(16) struct l_unnamed_1 __const_OC_projectB_main_OC_matrix __POSTFIXALIGN__(16) = { { 1, 2, 3, { { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 } } }, { 4, 5, 6, { { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 } } }, { 7, 8, 9, { { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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/* LLVM Intrinsic Builtin Function Bodies */
static __forceinline uint32_t llvm_select_u32(bool condition, uint32_t iftrue, uint32_t ifnot) {
  uint32_t r;
  r = condition ? iftrue : ifnot;
  return r;
}
static __forceinline uint32_t llvm_add_u32(uint32_t a, uint32_t b) {
  uint32_t r = a + b;
  return r;
}
static __forceinline uint64_t llvm_add_u64(uint64_t a, uint64_t b) {
  uint64_t r = a + b;
  return r;
}
static __forceinline uint32_t llvm_sub_u32(uint32_t a, uint32_t b) {
  uint32_t r = a - b;
  return r;
}
static __forceinline uint32_t llvm_mul_u32(uint32_t a, uint32_t b) {
  uint32_t r = a * b;
  return r;
}
static __forceinline uint64_t llvm_mul_u64(uint64_t a, uint64_t b) {
  uint64_t r = a * b;
  return r;
}
static __forceinline uint32_t llvm_sdiv_u32(int32_t a, int32_t b) {
  uint32_t r = a / b;
  return r;
}
static __forceinline uint32_t llvm_srem_u32(int32_t a, int32_t b) {
  uint32_t r = a % b;
  return r;
}
static __forceinline uint32_t llvm_ashr_u32(int32_t a, int32_t b) {
  uint32_t r = a >> b;
  return r;
}
static __forceinline struct l_struct_fused_return_projectA_main_memoizedFib llvm_ctor_struct_fused_return_projectA_main_memoizedFib(uint32_t x0, uint32_t x1) {
  struct l_struct_fused_return_projectA_main_memoizedFib r;
  r.field0 = x0;
  r.field1 = x1;
  return r;
}
static __forceinline struct l_struct_fused_return_createDynamicArray_processMatrix llvm_ctor_struct_fused_return_createDynamicArray_processMatrix(uint32_t x0, void* x1) {
  struct l_struct_fused_return_createDynamicArray_processMatrix r;
  r.field0 = x0;
  r.field1 = x1;
  return r;
}
static __forceinline double llvm_OC_fabs_OC_f64(double a) {
  double r;
  r = fabs(a);
  return r;
}


/* Function Bodies */

void* getErrorMessage(void) {
  void* _1;
  void* _2;
  void* _3;
  void* _3__PHI_TEMPORARY;

  _1 = globalErrorMessage;
  if ((_1 != ((void*)/*NULL*/0))) {
    goto _4;
  } else {
    goto _5;
  }

_4:
  _2 = globalErrorMessage;
  _3__PHI_TEMPORARY = _2;   /* for PHI node */
  goto _6;

_5:
  _3__PHI_TEMPORARY = (&_OC_str);   /* for PHI node */
  goto _6;

_6:
  _3 = _3__PHI_TEMPORARY;
  return _3;
}


uint32_t factorial(uint32_t _7) {
  uint32_t _8;    /* Address-exposed local */
  uint32_t _9;    /* Address-exposed local */
  uint32_t _10;    /* Address-exposed local */
  uint32_t _11;    /* Address-exposed local */
  uint32_t _12;
  uint32_t _13;
  uint32_t _14;
  uint32_t _15;
  uint32_t _16;
  uint32_t _17;
  uint32_t _18;
  uint32_t _19;
  uint32_t _20;
  uint32_t _21;
  uint32_t _22;
  uint32_t _23;
  uint32_t _24;
  uint32_t _25;
  uint32_t _26;
  uint32_t _27;
  uint32_t _28;
  uint32_t _29;
  uint32_t _30;
  uint32_t _31;
  uint32_t _32;
  uint32_t _33;
  uint32_t _34;
  uint32_t _35;

  _9 = _7;
  _12 = recursionDepth;
  _13 = llvm_add_u32(_12, 1);
  recursionDepth = _13;
  if ((((int32_t)_13) > ((int32_t)1000u))) {
    goto _36;
  } else {
    goto _37;
  }

_36:
  _14 = fused_setErrorMessage(0, (&_OC_str_OC_2));
  _15 = recursionDepth;
  recursionDepth = (llvm_add_u32(_15, -1));
  _8 = -1;
  goto _38;

_37:
  _16 = _9;
  if ((((int32_t)_16) < ((int32_t)0u))) {
    goto _39;
  } else {
    goto _40;
  }

_39:
  _17 = fused_setErrorMessage(0, (&_OC_str_OC_3));
  _18 = recursionDepth;
  recursionDepth = (llvm_add_u32(_18, -1));
  _8 = -1;
  goto _38;

_40:
  _19 = _9;
  if ((((int32_t)_19) > ((int32_t)20u))) {
    goto _41;
  } else {
    goto _42;
  }

_41:
  _20 = fused_setErrorMessage(0, (&_OC_str_OC_4));
  _21 = recursionDepth;
  recursionDepth = (llvm_add_u32(_21, -1));
  _8 = -1;
  goto _38;

_42:
  _22 = _9;
  if ((((int32_t)_22) <= ((int32_t)1u))) {
    goto _43;
  } else {
    goto _44;
  }

_43:
  _10 = 1;
  goto _45;

_44:
  _23 = _9;
  _24 = factorial((llvm_sub_u32(_23, 1)));
  _11 = _24;
  _25 = _11;
  if ((_25 == 4294967295u)) {
    goto _46;
  } else {
    goto _47;
  }

_46:
  _26 = recursionDepth;
  recursionDepth = (llvm_add_u32(_26, -1));
  _8 = -1;
  goto _38;

_47:
  _27 = _11;
  _28 = _9;
  if ((((int32_t)_27) > ((int32_t)(llvm_sdiv_u32(2147483647u, _28))))) {
    goto _48;
  } else {
    goto _49;
  }

_48:
  _29 = fused_setErrorMessage(0, (&_OC_str_OC_5));
  _30 = recursionDepth;
  recursionDepth = (llvm_add_u32(_30, -1));
  _8 = -1;
  goto _38;

_49:
  _31 = _9;
  _32 = _11;
  _10 = (llvm_mul_u32(_31, _32));
  goto _45;

_45:
  _33 = recursionDepth;
  recursionDepth = (llvm_add_u32(_33, -1));
  _34 = _10;
  _8 = _34;
  goto _38;

_38:
  _35 = _8;
  return _35;
}


void pushBack(void* _50, uint32_t _51) {
  void* _52;    /* Address-exposed local */
  uint32_t _53;    /* Address-exposed local */
  uint32_t _54;    /* Address-exposed local */
  void* _55;    /* Address-exposed local */
  void* _56;
  uint32_t _57;
  void* _58;
  uint32_t _59;
  uint32_t _60;
  void* _61;
  uint32_t _62;
  void* _63;
  uint32_t _64;
  void* _65;
  uint32_t _66;
  uint32_t _67;
  void* _68;
  void* _69;
  uint32_t _70;
  void* _71;
  void* _72;
  uint32_t _73;
  void* _74;
  void* _75;
  uint32_t _76;
  void* _77;
  void* _78;
  uint32_t _79;
  void* _80;
  uint32_t _81;
  uint32_t _82;
  void* _83;
  void* _84;
  void* _85;
  uint32_t _86;
  uint32_t _87;
  void* _88;
  uint32_t _89;
  void* _90;
  void* _91;
  void* _92;
  void* _93;
  uint32_t _94;
  void* _95;

  _52 = _50;
  _53 = _51;
  _56 = _52;
  if ((_56 != ((void*)/*NULL*/0))) {
    goto _96;
  } else {
    goto _97;
  }

_97:
  _57 = fused_setErrorMessage(0, (&_OC_str_OC_10));
  goto _98;

_96:
  _58 = _52;
  _59 = *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_58)->field1))));
  if ((((int32_t)_59) >= ((int32_t)1000u))) {
    goto _99;
  } else {
    goto _100;
  }

_99:
  _60 = fused_setErrorMessage(0, (&_OC_str_OC_11));
  goto _98;

_100:
  _61 = _52;
  _62 = *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_61)->field1))));
  _63 = _52;
  _64 = *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_63)->field2))));
  if ((((int32_t)_62) >= ((int32_t)_64))) {
    goto _101;
  } else {
    goto _102;
  }

_101:
  _65 = _52;
  _66 = *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_65)->field2))));
  _54 = (llvm_mul_u32(_66, 2));
  _67 = _54;
  if ((((int32_t)_67) > ((int32_t)1000u))) {
    goto _103;
  } else {
    goto _104;
  }

_103:
  _54 = 1000;
  goto _104;

_104:
  _68 = _52;
  _69 = *(void**)(((&(((struct l_struct_struct_OC_DynamicArray*)_68)->field0))));
  _70 = _54;
  _71 = realloc((((void*)_69)), (llvm_mul_u64(4, (((int64_t)(int32_t)_70)))));
  _55 = (((void*)_71));
  _72 = _55;
  if ((_72 != ((void*)/*NULL*/0))) {
    goto _105;
  } else {
    goto _106;
  }

_106:
  _73 = fused_setErrorMessage(0, (&_OC_str_OC_12));
  goto _98;

_105:
  _74 = _55;
  _75 = _52;
  *(void**)(((&(((struct l_struct_struct_OC_DynamicArray*)_75)->field0)))) = _74;
  _76 = _54;
  _77 = _52;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_77)->field2)))) = _76;
  goto _102;

_102:
  _78 = _52;
  _79 = *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_78)->field3))));
  if ((_79 != 0u)) {
    goto _107;
  } else {
    goto _108;
  }

_107:
  _80 = _52;
  _81 = *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_80)->field1))));
  if ((((int32_t)_81) > ((int32_t)0u))) {
    goto _109;
  } else {
    goto _108;
  }

_109:
  _82 = _53;
  _83 = _52;
  _84 = *(void**)(((&(((struct l_struct_struct_OC_DynamicArray*)_83)->field0))));
  _85 = _52;
  _86 = *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_85)->field1))));
  _87 = *(uint32_t*)(((&((uint32_t*)_84)[((int64_t)(((int64_t)(int32_t)(llvm_sub_u32(_86, 1)))))])));
  if ((((int32_t)_82) < ((int32_t)_87))) {
    goto _110;
  } else {
    goto _108;
  }

_110:
  _88 = _52;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_88)->field3)))) = 0;
  goto _108;

_108:
  _89 = _53;
  _90 = _52;
  _91 = *(void**)(((&(((struct l_struct_struct_OC_DynamicArray*)_90)->field0))));
  _92 = _52;
  _93 = ((&(((struct l_struct_struct_OC_DynamicArray*)_92)->field1)));
  _94 = *(uint32_t*)_93;
  *(uint32_t*)_93 = (llvm_add_u32(_94, 1));
  *(uint32_t*)(((&((uint32_t*)_91)[((int64_t)(((int64_t)(int32_t)_94)))]))) = _89;
  _95 = _52;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_95)->field4)))) = 1;
  goto _98;

_98:
  return;
}


void* multiplyMatrices(void* _111, void* _112) {
  void* _113;    /* Address-exposed local */
  void* _114;    /* Address-exposed local */
  void* _115;    /* Address-exposed local */
  void* _116;    /* Address-exposed local */
  uint64_t _117;    /* Address-exposed local */
  uint32_t _118;    /* Address-exposed local */
  uint32_t _119;    /* Address-exposed local */
  uint64_t _120;    /* Address-exposed local */
  uint32_t _121;    /* Address-exposed local */
  uint64_t _122;    /* Address-exposed local */
  uint32_t _123;    /* Address-exposed local */
  void* _124;
  void* _125;
  uint32_t _126;
  void* _127;
  void* _128;
  void* _129;
  void* _130;
  uint32_t _131;
  void* _132;
  uint32_t _133;
  void* _134;
  uint32_t _135;
  uint32_t _136;
  void* _137;
  uint32_t _138;
  void* _139;
  uint32_t _140;
  uint32_t _141;
  void* _142;
  uint32_t _143;
  void* _144;
  uint32_t _145;
  void* _146;
  void* _147;
  uint32_t _148;
  void* _149;
  uint32_t _150;
  uint32_t _151;
  void* _152;
  uint32_t _153;
  uint32_t _154;
  void* _155;
  uint32_t _156;
  void* _157;
  void* _158;
  uint32_t _159;
  void* _160;
  uint32_t _161;
  uint32_t _162;
  void* _163;
  void* _164;
  uint32_t _165;
  void* _166;
  uint32_t _167;
  uint32_t _168;
  uint64_t _169;
  uint64_t _170;
  uint64_t _171;
  uint64_t _172;
  uint32_t _173;
  uint32_t _174;
  void* _175;
  uint32_t _176;
  void* _177;
  void* _178;
  uint32_t _179;
  void* _180;
  uint32_t _181;
  void* _182;
  void* _183;
  void* _184;
  uint32_t _185;
  uint64_t _186;
  void* _187;
  void* _188;
  uint32_t _189;
  void* _190;
  uint32_t _191;
  void* _192;
  void* _193;
  uint32_t _194;
  void* _195;
  uint32_t _196;
  uint32_t _197;
  uint32_t _198;
  uint64_t _199;
  void* _200;
  void* _201;
  uint32_t _202;
  void* _203;
  uint32_t _204;
  uint32_t _205;
  uint32_t _206;
  uint32_t _207;
  uint32_t _208;
  void* _209;
  uint32_t _210;
  void* _211;
  uint32_t _212;
  void* _213;
  void* _214;
  void* _215;

  _114 = _111;
  _115 = _112;
  _124 = _114;
  if ((_124 != ((void*)/*NULL*/0))) {
    goto _216;
  } else {
    goto _217;
  }

_216:
  _125 = _115;
  if ((_125 != ((void*)/*NULL*/0))) {
    goto _218;
  } else {
    goto _217;
  }

_217:
  _126 = fused_setErrorMessage(0, (&_OC_str_OC_21));
  _113 = ((void*)/*NULL*/0);
  goto _219;

_218:
  _127 = _114;
  _128 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_127)->field0))));
  if ((_128 != ((void*)/*NULL*/0))) {
    goto _220;
  } else {
    goto _221;
  }

_220:
  _129 = _115;
  _130 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_129)->field0))));
  if ((_130 != ((void*)/*NULL*/0))) {
    goto _222;
  } else {
    goto _221;
  }

_221:
  _131 = fused_setErrorMessage(0, (&_OC_str_OC_22));
  _113 = ((void*)/*NULL*/0);
  goto _219;

_222:
  _132 = _114;
  _133 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_132)->field2))));
  _134 = _115;
  _135 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_134)->field1))));
  if ((_133 != _135)) {
    goto _223;
  } else {
    goto _224;
  }

_223:
  _136 = fused_setErrorMessage(0, (&_OC_str_OC_23));
  _113 = ((void*)/*NULL*/0);
  goto _219;

_224:
  _137 = _114;
  _138 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_137)->field2))));
  if ((((int32_t)_138) > ((int32_t)100u))) {
    goto _225;
  } else {
    goto _226;
  }

_226:
  _139 = _115;
  _140 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_139)->field1))));
  if ((((int32_t)_140) > ((int32_t)100u))) {
    goto _225;
  } else {
    goto _227;
  }

_225:
  _141 = fused_setErrorMessage(0, (&_OC_str_OC_17));
  _113 = ((void*)/*NULL*/0);
  goto _219;

_227:
  _142 = _114;
  _143 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_142)->field1))));
  _144 = _115;
  _145 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_144)->field2))));
  _146 = fused_createMatrix(0, _143, _145, ((void*)/*NULL*/0));
  _116 = _146;
  _147 = _116;
  if ((_147 != ((void*)/*NULL*/0))) {
    goto _228;
  } else {
    goto _229;
  }

_229:
  _113 = ((void*)/*NULL*/0);
  goto _219;

_228:
  _117 = 0;
  _118 = 0;
  goto _230;

  do {     /* Syntactic loop '' to make GCC happy */
_230:
  _148 = _118;
  _149 = _114;
  _150 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_149)->field1))));
  if ((((int32_t)_148) < ((int32_t)_150))) {
    goto _231;
  } else {
    goto _232;
  }

_231:
  _119 = 0;
  goto _233;

  do {     /* Syntactic loop '' to make GCC happy */
_233:
  _151 = _119;
  _152 = _115;
  _153 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_152)->field2))));
  if ((((int32_t)_151) < ((int32_t)_153))) {
    goto _234;
  } else {
    goto _235;
  }

_234:
  _120 = 0;
  _121 = 0;
  goto _236;

  do {     /* Syntactic loop '' to make GCC happy */
_236:
  _154 = _121;
  _155 = _114;
  _156 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_155)->field2))));
  if ((((int32_t)_154) < ((int32_t)_156))) {
    goto _237;
  } else {
    goto _238;
  }

_237:
  _157 = _114;
  _158 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_157)->field0))));
  _159 = _118;
  _160 = *(void**)(((&((void**)_158)[((int64_t)(((int64_t)(int32_t)_159)))])));
  _161 = _121;
  _162 = *(uint32_t*)(((&((uint32_t*)_160)[((int64_t)(((int64_t)(int32_t)_161)))])));
  _163 = _115;
  _164 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_163)->field0))));
  _165 = _121;
  _166 = *(void**)(((&((void**)_164)[((int64_t)(((int64_t)(int32_t)_165)))])));
  _167 = _119;
  _168 = *(uint32_t*)(((&((uint32_t*)_166)[((int64_t)(((int64_t)(int32_t)_167)))])));
  _122 = (llvm_mul_u64((((int64_t)(int32_t)_162)), (((int64_t)(int32_t)_168))));
  _169 = _122;
  _170 = _120;
  _120 = (llvm_add_u64(_170, _169));
  _171 = _120;
  if ((((int64_t)_171) > ((int64_t)UINT64_C(2147483647)))) {
    goto _239;
  } else {
    goto _240;
  }

_240:
  _172 = _120;
  if ((((int64_t)_172) < ((int64_t)UINT64_C(18446744071562067968)))) {
    goto _239;
  } else {
    goto _241;
  }

_241:
  goto _242;

_242:
  _185 = _121;
  _121 = (llvm_add_u32(_185, 1));
  goto _236;

  } while (1); /* end of syntactic loop '' */
_238:
  _186 = _120;
  _187 = _116;
  _188 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_187)->field0))));
  _189 = _118;
  _190 = *(void**)(((&((void**)_188)[((int64_t)(((int64_t)(int32_t)_189)))])));
  _191 = _119;
  *(uint32_t*)(((&((uint32_t*)_190)[((int64_t)(((int64_t)(int32_t)_191)))]))) = (((uint32_t)_186));
  _192 = _116;
  _193 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_192)->field0))));
  _194 = _118;
  _195 = *(void**)(((&((void**)_193)[((int64_t)(((int64_t)(int32_t)_194)))])));
  _196 = _119;
  _197 = *(uint32_t*)(((&((uint32_t*)_195)[((int64_t)(((int64_t)(int32_t)_196)))])));
  _198 = abs(_197);
  _199 = _117;
  if ((((int64_t)(((int64_t)(int32_t)_198))) > ((int64_t)_199))) {
    goto _243;
  } else {
    goto _244;
  }

_243:
  _200 = _116;
  _201 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_200)->field0))));
  _202 = _118;
  _203 = *(void**)(((&((void**)_201)[((int64_t)(((int64_t)(int32_t)_202)))])));
  _204 = _119;
  _205 = *(uint32_t*)(((&((uint32_t*)_203)[((int64_t)(((int64_t)(int32_t)_204)))])));
  _206 = abs(_205);
  _117 = (((int64_t)(int32_t)_206));
  goto _244;

_244:
  goto _245;

_245:
  _207 = _119;
  _119 = (llvm_add_u32(_207, 1));
  goto _233;

  } while (1); /* end of syntactic loop '' */
_235:
  goto _246;

_246:
  _208 = _118;
  _118 = (llvm_add_u32(_208, 1));
  goto _230;

  } while (1); /* end of syntactic loop '' */
_239:
  _173 = fused_setErrorMessage(0, (&_OC_str_OC_24));
  _123 = 0;
  goto _247;

  do {     /* Syntactic loop '' to make GCC happy */
_247:
  _174 = _123;
  _175 = _116;
  _176 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_175)->field1))));
  if ((((int32_t)_174) < ((int32_t)_176))) {
    goto _248;
  } else {
    goto _249;
  }

_248:
  _177 = _116;
  _178 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_177)->field0))));
  _179 = _123;
  _180 = *(void**)(((&((void**)_178)[((int64_t)(((int64_t)(int32_t)_179)))])));
  free((((void*)_180)));
  goto _250;

_250:
  _181 = _123;
  _123 = (llvm_add_u32(_181, 1));
  goto _247;

  } while (1); /* end of syntactic loop '' */
_249:
  _182 = _116;
  _183 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_182)->field0))));
  free((((void*)_183)));
  _184 = _116;
  free((((void*)_184)));
  _113 = ((void*)/*NULL*/0);
  goto _219;

_232:
  _209 = _116;
  _210 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_209)->field1))));
  _211 = _116;
  _212 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_211)->field2))));
  _213 = _116;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_213)->field3)))) = (((uint32_t)(bool)(_210 == _212)));
  _214 = _116;
  _113 = _214;
  goto _219;

_219:
  _215 = _113;
  return _215;
}


void* insertNode(void* _251, uint32_t _252) {
  void* _253;    /* Address-exposed local */
  void* _254;    /* Address-exposed local */
  uint32_t _255;    /* Address-exposed local */
  void* _256;    /* Address-exposed local */
  void* _257;    /* Address-exposed local */
  void* _258;    /* Address-exposed local */
  uint32_t _259;    /* Address-exposed local */
  void* _260;
  void* _261;
  uint32_t _262;
  void* _263;
  uint32_t _264;
  void* _265;
  void* _266;
  void* _267;
  void* _268;
  void* _269;
  void* _270;
  void* _271;
  void* _272;
  void* _273;
  void* _274;
  uint32_t _275;
  uint32_t _276;
  bool _277;
  bool _277__PHI_TEMPORARY;
  void* _278;
  void* _279;
  void* _280;
  uint32_t _281;
  uint32_t _282;
  uint32_t _283;
  void* _284;
  void* _285;
  uint32_t _286;
  uint32_t _287;
  uint32_t _288;
  uint32_t _289;
  void* _290;
  void* _291;
  void* _292;
  void* _293;
  void* _294;
  void* _295;
  void* _296;
  void* _297;
  void* _298;
  void* _299;
  void* _300;
  void* _301;
  void* _302;
  void* _303;

  _254 = _251;
  _255 = _252;
  _260 = malloc(32);
  _256 = (((void*)_260));
  _261 = _256;
  if ((_261 != ((void*)/*NULL*/0))) {
    goto _304;
  } else {
    goto _305;
  }

_305:
  _262 = fused_setErrorMessage(0, (&_OC_str_OC_25));
  _263 = _254;
  _253 = _263;
  goto _306;

_304:
  _264 = _255;
  _265 = _256;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_Node*)_265)->field0)))) = _264;
  _266 = _256;
  *(void**)(((&(((struct l_struct_struct_OC_Node*)_266)->field1)))) = ((void*)/*NULL*/0);
  _267 = _256;
  *(void**)(((&(((struct l_struct_struct_OC_Node*)_267)->field2)))) = ((void*)/*NULL*/0);
  _268 = _256;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_Node*)_268)->field3)))) = 0;
  _269 = _254;
  if ((_269 != ((void*)/*NULL*/0))) {
    goto _307;
  } else {
    goto _308;
  }

_308:
  _270 = _256;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_Node*)_270)->field4)))) = 0;
  insertNode_OC_maxDepth = 0;
  _271 = _256;
  _253 = _271;
  goto _306;

_307:
  _272 = _254;
  _257 = _272;
  _258 = ((void*)/*NULL*/0);
  _259 = 0;
  goto _309;

  do {     /* Syntactic loop '' to make GCC happy */
_309:
  _273 = _257;
  if ((_273 != ((void*)/*NULL*/0))) {
    goto _310;
  } else {
    _277__PHI_TEMPORARY = 0;   /* for PHI node */
    goto _311;
  }

_310:
  _274 = _257;
  _275 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Node*)_274)->field0))));
  _276 = _255;
  _277__PHI_TEMPORARY = (((int32_t)_275) < ((int32_t)_276));   /* for PHI node */
  goto _311;

_311:
  _277 = _277__PHI_TEMPORARY;
  if (_277) {
    goto _312;
  } else {
    goto _313;
  }

_312:
  _278 = _257;
  _258 = _278;
  _279 = _257;
  _280 = *(void**)(((&(((struct l_struct_struct_OC_Node*)_279)->field1))));
  _257 = _280;
  _281 = _259;
  _259 = (llvm_add_u32(_281, 1));
  _282 = _259;
  if ((((int32_t)_282) > ((int32_t)1000u))) {
    goto _314;
  } else {
    goto _315;
  }

_315:
  goto _309;

  } while (1); /* end of syntactic loop '' */
_314:
  _283 = fused_setErrorMessage(0, (&_OC_str_OC_26));
  _284 = _256;
  free((((void*)_284)));
  _285 = _254;
  _253 = _285;
  goto _306;

_313:
  _286 = _259;
  _287 = insertNode_OC_maxDepth;
  if ((((int32_t)_286) > ((int32_t)_287))) {
    goto _316;
  } else {
    goto _317;
  }

_316:
  _288 = _259;
  insertNode_OC_maxDepth = _288;
  goto _317;

_317:
  _289 = _259;
  _290 = _256;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_Node*)_290)->field4)))) = _289;
  _291 = _257;
  _292 = _256;
  *(void**)(((&(((struct l_struct_struct_OC_Node*)_292)->field1)))) = _291;
  _293 = _258;
  if ((_293 != ((void*)/*NULL*/0))) {
    goto _318;
  } else {
    goto _319;
  }

_318:
  _294 = _256;
  _295 = _258;
  *(void**)(((&(((struct l_struct_struct_OC_Node*)_295)->field1)))) = _294;
  _296 = _258;
  _297 = _256;
  *(void**)(((&(((struct l_struct_struct_OC_Node*)_297)->field2)))) = _296;
  goto _320;

_319:
  _298 = _256;
  _253 = _298;
  goto _306;

_320:
  _299 = _257;
  if ((_299 != ((void*)/*NULL*/0))) {
    goto _321;
  } else {
    goto _322;
  }

_321:
  _300 = _256;
  _301 = _257;
  *(void**)(((&(((struct l_struct_struct_OC_Node*)_301)->field2)))) = _300;
  goto _322;

_322:
  _302 = _254;
  _253 = _302;
  goto _306;

_306:
  _303 = _253;
  return _303;
}

static const ConstantDoubleTy FPConstant1 = 0x7FF0000000000000ULL;    /* INF */

double calculateDistance(struct l_struct_struct_OC_Point _323, struct l_struct_struct_OC_Point _324, void* _325) {
  double _326;    /* Address-exposed local */
  void* _327;    /* Address-exposed local */
  double _328;    /* Address-exposed local */
  double _329;    /* Address-exposed local */
  double _330;    /* Address-exposed local */
  void* _331;
  double _332;
  double _333;
  void* _334;
  uint32_t _335;
  uint32_t _336;
  uint32_t _337;
  uint32_t _338;
  uint32_t _339;
  uint32_t _340;
  uint32_t _341;
  uint32_t _342;
  uint32_t _343;
  void* _344;
  uint32_t _345;
  uint32_t _346;
  uint32_t _347;
  double _348;
  double _349;
  double _350;
  uint32_t _351;
  uint32_t _352;
  double _353;
  double _354;
  double _355;
  double _356;
  double _357;
  double _358;
  double _359;
  void* _360;
  uint32_t _361;
  double _362;
  double _363;
  double _364;
  double _365;
  double _366;
  double _367;
  double _368;
  double _369;
  llvmBitCastUnion _370__BITCAST_TEMPORARY;
  void* _371;
  uint32_t _372;
  double _373;
  double _374;

  _327 = _325;
  _331 = _327;
  *(uint32_t*)_331 = 0;
  _332 = *(double*)(((&(&_323)->field3)));
  if ((llvm_fcmp_ole(_332, 0))) {
    goto _375;
  } else {
    goto _376;
  }

_376:
  _333 = *(double*)(((&(&_324)->field3)));
  if ((llvm_fcmp_ole(_333, 0))) {
    goto _375;
  } else {
    goto _377;
  }

_375:
  _334 = _327;
  *(uint32_t*)_334 = 1;
  _335 = fused_setErrorMessage(0, (&_OC_str_OC_32));
  _326 = -1;
  goto _378;

_377:
  _336 = *(uint32_t*)(((&(&_323)->field0)));
  _337 = abs(_336);
  if ((((int32_t)_337) > ((int32_t)1000u))) {
    goto _379;
  } else {
    goto _380;
  }

_380:
  _338 = *(uint32_t*)(((&(&_323)->field1)));
  _339 = abs(_338);
  if ((((int32_t)_339) > ((int32_t)1000u))) {
    goto _379;
  } else {
    goto _381;
  }

_381:
  _340 = *(uint32_t*)(((&(&_324)->field0)));
  _341 = abs(_340);
  if ((((int32_t)_341) > ((int32_t)1000u))) {
    goto _379;
  } else {
    goto _382;
  }

_382:
  _342 = *(uint32_t*)(((&(&_324)->field1)));
  _343 = abs(_342);
  if ((((int32_t)_343) > ((int32_t)1000u))) {
    goto _379;
  } else {
    goto _383;
  }

_379:
  _344 = _327;
  *(uint32_t*)_344 = 3;
  _345 = fused_setErrorMessage(0, (&_OC_str_OC_33));
  _326 = -1;
  goto _378;

_383:
  _346 = *(uint32_t*)(((&(&_324)->field0)));
  _347 = *(uint32_t*)(((&(&_323)->field0)));
  _348 = *(double*)(((&(&_324)->field3)));
  _349 = *(double*)(((&(&_323)->field3)));
  _350 = sqrt((_348 / _349));
  _328 = ((((double)(int32_t)(llvm_sub_u32(_346, _347)))) * _350);
  _351 = *(uint32_t*)(((&(&_324)->field1)));
  _352 = *(uint32_t*)(((&(&_323)->field1)));
  _353 = *(double*)(((&(&_324)->field3)));
  _354 = *(double*)(((&(&_323)->field3)));
  _355 = sqrt((_353 / _354));
  _329 = ((((double)(int32_t)(llvm_sub_u32(_351, _352)))) * _355);
  _356 = _328;
  _357 = llvm_OC_fabs_OC_f64(_356);
  if ((llvm_fcmp_ogt(_357, 1000))) {
    goto _384;
  } else {
    goto _385;
  }

_385:
  _358 = _329;
  _359 = llvm_OC_fabs_OC_f64(_358);
  if ((llvm_fcmp_ogt(_359, 1000))) {
    goto _384;
  } else {
    goto _386;
  }

_384:
  _360 = _327;
  *(uint32_t*)_360 = 5;
  _361 = fused_setErrorMessage(0, (&_OC_str_OC_34));
  _326 = -1;
  goto _378;

_386:
  _362 = _328;
  _363 = _328;
  _364 = _329;
  _365 = _329;
  _366 = sqrt(((_362 * _363) + (_364 * _365)));
  _330 = _366;
  _367 = _330;
  if ((llvm_fcmp_uno(_367, _367))) {
    goto _387;
  } else {
    goto _388;
  }

_388:
  _368 = _330;
  _369 = llvm_OC_fabs_OC_f64(_368);
  if (((llvm_select_u32((llvm_fcmp_oeq(_369, (*(double*)&FPConstant1))), (llvm_select_u32((((int64_t)((_370__BITCAST_TEMPORARY.Double = _368, _370__BITCAST_TEMPORARY.Int64))) < ((int64_t)UINT64_C(0))), -1, 1)), 0)) != 0u)) {
    goto _387;
  } else {
    goto _389;
  }

_387:
  _371 = _327;
  *(uint32_t*)_371 = 8;
  _372 = fused_setErrorMessage(0, (&_OC_str_OC_35));
  _326 = -1;
  goto _378;

_389:
  _373 = _330;
  _326 = _373;
  goto _378;

_378:
  _374 = _326;
  return _374;
}


double calculateCircleArea(struct l_struct_struct_OC_Circle _390, void* _391) {
  double _392;    /* Address-exposed local */
  void* _393;    /* Address-exposed local */
  double _394;    /* Address-exposed local */
  void* _395;
  uint32_t _396;
  void* _397;
  uint32_t _398;
  double _399;
  void* _400;
  uint32_t _401;
  double _402;
  void* _403;
  uint32_t _404;
  uint32_t _405;
  uint32_t _406;
  uint32_t _407;
  uint32_t _408;
  void* _409;
  uint32_t _410;
  double _411;
  double _412;
  double _413;
  double _414;
  double _415;
  llvmBitCastUnion _416__BITCAST_TEMPORARY;
  void* _417;
  uint32_t _418;
  uint32_t _419;
  double _420;
  uint32_t _421;
  double _422;
  void* _423;
  uint32_t _424;
  double _425;
  double _426;
  void* _427;
  uint32_t _428;
  double _429;

  _393 = _391;
  _395 = _393;
  *(uint32_t*)_395 = 0;
  _396 = *(uint32_t*)(((&(&_390)->field2)));
  if ((_396 != 0u)) {
    goto _430;
  } else {
    goto _431;
  }

_431:
  _397 = _393;
  *(uint32_t*)_397 = 1;
  _398 = fused_setErrorMessage(0, (&_OC_str_OC_36));
  _392 = -1;
  goto _432;

_430:
  _399 = *(double*)(((&(&_390)->field1)));
  if ((llvm_fcmp_ole(_399, 0))) {
    goto _433;
  } else {
    goto _434;
  }

_433:
  _400 = _393;
  *(uint32_t*)_400 = 1;
  _401 = fused_setErrorMessage(0, (&_OC_str_OC_37));
  _392 = -1;
  goto _432;

_434:
  _402 = *(double*)(((&(&_390)->field1)));
  if ((llvm_fcmp_ogt(_402, 1000))) {
    goto _435;
  } else {
    goto _436;
  }

_435:
  _403 = _393;
  *(uint32_t*)_403 = 3;
  _404 = fused_setErrorMessage(0, (&_OC_str_OC_38));
  _392 = -1;
  goto _432;

_436:
  _405 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Point*)(((&(&_390)->field0))))->field0))));
  _406 = abs(_405);
  if ((((int32_t)_406) > ((int32_t)1000u))) {
    goto _437;
  } else {
    goto _438;
  }

_438:
  _407 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Point*)(((&(&_390)->field0))))->field1))));
  _408 = abs(_407);
  if ((((int32_t)_408) > ((int32_t)1000u))) {
    goto _437;
  } else {
    goto _439;
  }

_437:
  _409 = _393;
  *(uint32_t*)_409 = 3;
  _410 = fused_setErrorMessage(0, (&_OC_str_OC_39));
  _392 = -1;
  goto _432;

_439:
  _411 = *(double*)(((&(&_390)->field1)));
  _412 = *(double*)(((&(&_390)->field1)));
  _394 = ((3.1415899999999999 * _411) * _412);
  _413 = _394;
  if ((llvm_fcmp_uno(_413, _413))) {
    goto _440;
  } else {
    goto _441;
  }

_441:
  _414 = _394;
  _415 = llvm_OC_fabs_OC_f64(_414);
  if (((llvm_select_u32((llvm_fcmp_oeq(_415, (*(double*)&FPConstant1))), (llvm_select_u32((((int64_t)((_416__BITCAST_TEMPORARY.Double = _414, _416__BITCAST_TEMPORARY.Int64))) < ((int64_t)UINT64_C(0))), -1, 1)), 0)) != 0u)) {
    goto _440;
  } else {
    goto _442;
  }

_440:
  _417 = _393;
  *(uint32_t*)_417 = 5;
  _418 = fused_setErrorMessage(0, (&_OC_str_OC_40));
  _392 = -1;
  goto _432;

_442:
  _419 = strcmp((((&((struct l_array_256_uint8_t*)(((&(&_390)->field3))))->array[((int64_t)0)]))), (&_OC_str_OC_41));
  if ((_419 == 0u)) {
    goto _443;
  } else {
    goto _444;
  }

_443:
  _420 = _394;
  _392 = _420;
  goto _432;

_444:
  _421 = strcmp((((&((struct l_array_256_uint8_t*)(((&(&_390)->field3))))->array[((int64_t)0)]))), (&_OC_str_OC_42));
  if ((_421 == 0u)) {
    goto _445;
  } else {
    goto _446;
  }

_445:
  _422 = *(double*)(((&(((struct l_struct_struct_OC_Point*)(((&(&_390)->field0))))->field3))));
  if ((llvm_fcmp_ole(_422, 0))) {
    goto _447;
  } else {
    goto _448;
  }

_447:
  _423 = _393;
  *(uint32_t*)_423 = 1;
  _424 = fused_setErrorMessage(0, (&_OC_str_OC_43));
  _392 = -1;
  goto _432;

_448:
  _425 = _394;
  _426 = *(double*)(((&(((struct l_struct_struct_OC_Point*)(((&(&_390)->field0))))->field3))));
  _392 = (_425 * _426);
  goto _432;

_446:
  _427 = _393;
  *(uint32_t*)_427 = 1;
  _428 = fused_setErrorMessage(0, (&_OC_str_OC_44));
  _392 = -1;
  goto _432;

_432:
  _429 = _392;
  return _429;
}


uint32_t validateMatrix(void* _449) {
  uint32_t _450;    /* Address-exposed local */
  void* _451;    /* Address-exposed local */
  uint32_t _452;    /* Address-exposed local */
  void* _453;
  uint32_t _454;
  void* _455;
  void* _456;
  uint32_t _457;
  void* _458;
  uint32_t _459;
  void* _460;
  uint32_t _461;
  uint32_t _462;
  void* _463;
  uint32_t _464;
  void* _465;
  uint32_t _466;
  uint32_t _467;
  uint32_t _468;
  void* _469;
  uint32_t _470;
  void* _471;
  void* _472;
  uint32_t _473;
  void* _474;
  uint32_t _475;
  uint32_t _476;
  void* _477;
  uint32_t _478;
  void* _479;
  uint32_t _480;
  void* _481;
  uint32_t _482;
  uint32_t _483;
  uint32_t _484;

  _451 = _449;
  _453 = _451;
  if ((_453 != ((void*)/*NULL*/0))) {
    goto _485;
  } else {
    goto _486;
  }

_486:
  _454 = fused_setErrorMessage(0, (&_OC_str_OC_21));
  _450 = 7;
  goto _487;

_485:
  _455 = _451;
  _456 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_455)->field0))));
  if ((_456 != ((void*)/*NULL*/0))) {
    goto _488;
  } else {
    goto _489;
  }

_489:
  _457 = fused_setErrorMessage(0, (&_OC_str_OC_45));
  _450 = 7;
  goto _487;

_488:
  _458 = _451;
  _459 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_458)->field1))));
  if ((((int32_t)_459) < ((int32_t)1u))) {
    goto _490;
  } else {
    goto _491;
  }

_491:
  _460 = _451;
  _461 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_460)->field2))));
  if ((((int32_t)_461) < ((int32_t)1u))) {
    goto _490;
  } else {
    goto _492;
  }

_490:
  _462 = fused_setErrorMessage(0, (&_OC_str_OC_16));
  _450 = 1;
  goto _487;

_492:
  _463 = _451;
  _464 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_463)->field1))));
  if ((((int32_t)_464) > ((int32_t)100u))) {
    goto _493;
  } else {
    goto _494;
  }

_494:
  _465 = _451;
  _466 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_465)->field2))));
  if ((((int32_t)_466) > ((int32_t)100u))) {
    goto _493;
  } else {
    goto _495;
  }

_493:
  _467 = fused_setErrorMessage(0, (&_OC_str_OC_46));
  _450 = 3;
  goto _487;

_495:
  _452 = 0;
  goto _496;

  do {     /* Syntactic loop '' to make GCC happy */
_496:
  _468 = _452;
  _469 = _451;
  _470 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_469)->field1))));
  if ((((int32_t)_468) < ((int32_t)_470))) {
    goto _497;
  } else {
    goto _498;
  }

_497:
  _471 = _451;
  _472 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_471)->field0))));
  _473 = _452;
  _474 = *(void**)(((&((void**)_472)[((int64_t)(((int64_t)(int32_t)_473)))])));
  if ((_474 != ((void*)/*NULL*/0))) {
    goto _499;
  } else {
    goto _500;
  }

_499:
  goto _501;

_501:
  _476 = _452;
  _452 = (llvm_add_u32(_476, 1));
  goto _496;

  } while (1); /* end of syntactic loop '' */
_500:
  _475 = fused_setErrorMessage(0, (&_OC_str_OC_47));
  _450 = 7;
  goto _487;

_498:
  _477 = _451;
  _478 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_477)->field1))));
  _479 = _451;
  _480 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_479)->field2))));
  _481 = _451;
  _482 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_481)->field3))));
  if (((((uint32_t)(bool)(_478 == _480))) != _482)) {
    goto _502;
  } else {
    goto _503;
  }

_502:
  _483 = fused_setErrorMessage(0, (&_OC_str_OC_48));
  _450 = 1;
  goto _487;

_503:
  _450 = 0;
  goto _487;

_487:
  _484 = _450;
  return _484;
}


void* findCentroid(void* _504, uint32_t _505, void* _506) {
  void* _507;    /* Address-exposed local */
  void* _508;    /* Address-exposed local */
  uint32_t _509;    /* Address-exposed local */
  void* _510;    /* Address-exposed local */
  void* _511;    /* Address-exposed local */
  double _512;    /* Address-exposed local */
  double _513;    /* Address-exposed local */
  double _514;    /* Address-exposed local */
  uint32_t _515;    /* Address-exposed local */
  void* _516;
  void* _517;
  uint32_t _518;
  void* _519;
  uint32_t _520;
  uint32_t _521;
  void* _522;
  uint32_t _523;
  void* _524;
  void* _525;
  void* _526;
  uint32_t _527;
  uint32_t _528;
  uint32_t _529;
  void* _530;
  uint32_t _531;
  double _532;
  void* _533;
  uint32_t _534;
  void* _535;
  void* _536;
  uint32_t _537;
  double _538;
  double _539;
  void* _540;
  uint32_t _541;
  uint32_t _542;
  void* _543;
  uint32_t _544;
  double _545;
  double _546;
  void* _547;
  uint32_t _548;
  uint32_t _549;
  void* _550;
  uint32_t _551;
  double _552;
  double _553;
  double _554;
  double _555;
  double _556;
  double _557;
  double _558;
  llvmBitCastUnion _559__BITCAST_TEMPORARY;
  double _560;
  double _561;
  llvmBitCastUnion _562__BITCAST_TEMPORARY;
  double _563;
  double _564;
  llvmBitCastUnion _565__BITCAST_TEMPORARY;
  void* _566;
  uint32_t _567;
  void* _568;
  uint32_t _569;
  double _570;
  void* _571;
  uint32_t _572;
  void* _573;
  double _574;
  double _575;
  void* _576;
  double _577;
  double _578;
  void* _579;
  double _580;
  uint32_t _581;
  void* _582;
  void* _583;
  void* _584;
  void* _585;
  void* _586;

  _508 = _504;
  _509 = _505;
  _510 = _506;
  _516 = _510;
  *(uint32_t*)_516 = 0;
  _517 = _508;
  if ((_517 != ((void*)/*NULL*/0))) {
    goto _587;
  } else {
    goto _588;
  }

_587:
  _518 = _509;
  if ((((int32_t)_518) <= ((int32_t)0u))) {
    goto _588;
  } else {
    goto _589;
  }

_588:
  _519 = _510;
  *(uint32_t*)_519 = 1;
  _520 = fused_setErrorMessage(0, (&_OC_str_OC_50));
  _507 = ((void*)/*NULL*/0);
  goto _590;

_589:
  _521 = _509;
  if ((((int32_t)_521) > ((int32_t)1000u))) {
    goto _591;
  } else {
    goto _592;
  }

_591:
  _522 = _510;
  *(uint32_t*)_522 = 3;
  _523 = fused_setErrorMessage(0, (&_OC_str_OC_51));
  _507 = ((void*)/*NULL*/0);
  goto _590;

_592:
  _524 = malloc(272);
  _511 = (((void*)_524));
  _525 = _511;
  if ((_525 != ((void*)/*NULL*/0))) {
    goto _593;
  } else {
    goto _594;
  }

_594:
  _526 = _510;
  *(uint32_t*)_526 = 2;
  _527 = fused_setErrorMessage(0, (&_OC_str_OC_52));
  _507 = ((void*)/*NULL*/0);
  goto _590;

_593:
  _512 = 0;
  _513 = 0;
  _514 = 0;
  _515 = 0;
  goto _595;

  do {     /* Syntactic loop '' to make GCC happy */
_595:
  _528 = _515;
  _529 = _509;
  if ((((int32_t)_528) < ((int32_t)_529))) {
    goto _596;
  } else {
    goto _597;
  }

_596:
  _530 = _508;
  _531 = _515;
  _532 = *(double*)(((&(((struct l_struct_struct_OC_Point*)(((&((struct l_struct_struct_OC_Point*)_530)[((int64_t)(((int64_t)(int32_t)_531)))]))))->field3))));
  if ((llvm_fcmp_ole(_532, 0))) {
    goto _598;
  } else {
    goto _599;
  }

_599:
  _536 = _508;
  _537 = _515;
  _538 = *(double*)(((&(((struct l_struct_struct_OC_Point*)(((&((struct l_struct_struct_OC_Point*)_536)[((int64_t)(((int64_t)(int32_t)_537)))]))))->field3))));
  _539 = _512;
  _512 = (_539 + _538);
  _540 = _508;
  _541 = _515;
  _542 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Point*)(((&((struct l_struct_struct_OC_Point*)_540)[((int64_t)(((int64_t)(int32_t)_541)))]))))->field0))));
  _543 = _508;
  _544 = _515;
  _545 = *(double*)(((&(((struct l_struct_struct_OC_Point*)(((&((struct l_struct_struct_OC_Point*)_543)[((int64_t)(((int64_t)(int32_t)_544)))]))))->field3))));
  _546 = _513;
  _513 = (_546 + ((((double)(int32_t)_542)) * _545));
  _547 = _508;
  _548 = _515;
  _549 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Point*)(((&((struct l_struct_struct_OC_Point*)_547)[((int64_t)(((int64_t)(int32_t)_548)))]))))->field1))));
  _550 = _508;
  _551 = _515;
  _552 = *(double*)(((&(((struct l_struct_struct_OC_Point*)(((&((struct l_struct_struct_OC_Point*)_550)[((int64_t)(((int64_t)(int32_t)_551)))]))))->field3))));
  _553 = _514;
  _514 = (_553 + ((((double)(int32_t)_549)) * _552));
  _554 = _512;
  if ((llvm_fcmp_uno(_554, _554))) {
    goto _600;
  } else {
    goto _601;
  }

_601:
  _555 = _513;
  if ((llvm_fcmp_uno(_555, _555))) {
    goto _600;
  } else {
    goto _602;
  }

_602:
  _556 = _514;
  if ((llvm_fcmp_uno(_556, _556))) {
    goto _600;
  } else {
    goto _603;
  }

_603:
  _557 = _512;
  _558 = llvm_OC_fabs_OC_f64(_557);
  if (((llvm_select_u32((llvm_fcmp_oeq(_558, (*(double*)&FPConstant1))), (llvm_select_u32((((int64_t)((_559__BITCAST_TEMPORARY.Double = _557, _559__BITCAST_TEMPORARY.Int64))) < ((int64_t)UINT64_C(0))), -1, 1)), 0)) != 0u)) {
    goto _600;
  } else {
    goto _604;
  }

_604:
  _560 = _513;
  _561 = llvm_OC_fabs_OC_f64(_560);
  if (((llvm_select_u32((llvm_fcmp_oeq(_561, (*(double*)&FPConstant1))), (llvm_select_u32((((int64_t)((_562__BITCAST_TEMPORARY.Double = _560, _562__BITCAST_TEMPORARY.Int64))) < ((int64_t)UINT64_C(0))), -1, 1)), 0)) != 0u)) {
    goto _600;
  } else {
    goto _605;
  }

_605:
  _563 = _514;
  _564 = llvm_OC_fabs_OC_f64(_563);
  if (((llvm_select_u32((llvm_fcmp_oeq(_564, (*(double*)&FPConstant1))), (llvm_select_u32((((int64_t)((_565__BITCAST_TEMPORARY.Double = _563, _565__BITCAST_TEMPORARY.Int64))) < ((int64_t)UINT64_C(0))), -1, 1)), 0)) != 0u)) {
    goto _600;
  } else {
    goto _606;
  }

_606:
  goto _607;

_607:
  _569 = _515;
  _515 = (llvm_add_u32(_569, 1));
  goto _595;

  } while (1); /* end of syntactic loop '' */
_598:
  _533 = _510;
  *(uint32_t*)_533 = 1;
  _534 = fused_setErrorMessage(0, (&_OC_str_OC_53));
  _535 = _511;
  free((((void*)_535)));
  _507 = ((void*)/*NULL*/0);
  goto _590;

_600:
  _566 = _510;
  *(uint32_t*)_566 = 5;
  _567 = fused_setErrorMessage(0, (&_OC_str_OC_54));
  _568 = _511;
  free((((void*)_568)));
  _507 = ((void*)/*NULL*/0);
  goto _590;

_597:
  _570 = _512;
  if ((llvm_fcmp_oeq(_570, 0))) {
    goto _608;
  } else {
    goto _609;
  }

_608:
  _571 = _510;
  *(uint32_t*)_571 = 1;
  _572 = fused_setErrorMessage(0, (&_OC_str_OC_55));
  _573 = _511;
  free((((void*)_573)));
  _507 = ((void*)/*NULL*/0);
  goto _590;

_609:
  _574 = _513;
  _575 = _512;
  _576 = _511;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_Point*)_576)->field0)))) = (((int32_t)(_574 / _575)));
  _577 = _514;
  _578 = _512;
  _579 = _511;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_Point*)_579)->field1)))) = (((int32_t)(_577 / _578)));
  _580 = _512;
  _581 = _509;
  _582 = _511;
  *(double*)(((&(((struct l_struct_struct_OC_Point*)_582)->field3)))) = (_580 / (((double)(int32_t)_581)));
  _583 = _511;
  _584 = strcpy((((&((struct l_array_256_uint8_t*)(((&(((struct l_struct_struct_OC_Point*)_583)->field2)))))->array[((int64_t)0)]))), (&_OC_str_OC_56));
  _585 = _511;
  _507 = _585;
  goto _590;

_590:
  _586 = _507;
  return _586;
}


uint32_t fused_quickSort(bool _610, void* _611, uint32_t _612, uint32_t _613, void* _614, uint32_t _615) {
  void* _616;
  void* _617;
  void* _618;
  void* _619;
  void* _620;
  void* _621;
  void* _622;
  void* _623;
  void* _624;
  void* _625;
  void* _626;
  void* _627;
  uint32_t _628;
  uint32_t _629;
  uint32_t _630;
  void* _631;
  uint32_t _632;
  void* _633;
  uint32_t _634;
  void* _635;
  uint32_t _636;
  uint32_t _637;
  uint32_t _638;
  uint32_t _639;
  uint32_t _640;
  uint32_t _641;
  void* _642;
  uint32_t _643;
  uint32_t _644;
  uint32_t _645;
  uint32_t _646;
  uint32_t _647;
  uint32_t _648;
  void* _649;
  uint32_t _650;
  uint32_t _651;
  void* _652;
  uint32_t _653;
  uint32_t _654;
  void* _655;
  uint32_t _656;
  uint32_t _657;
  void* _658;
  uint32_t _659;
  uint32_t _660;
  uint32_t _661;
  void* _662;
  uint32_t _663;
  uint32_t _664;
  void* _665;
  uint32_t _666;
  uint32_t _667;
  uint32_t _668;
  uint32_t _669;
  void* _670;
  uint32_t _671;
  uint32_t _672;
  void* _673;
  uint32_t _674;
  uint32_t _675;
  uint32_t _676;
  void* _677;
  uint32_t _678;
  uint32_t _679;
  void* _680;
  uint32_t _681;
  uint32_t _682;
  uint32_t _683;
  uint32_t _684;
  void* _685;
  uint32_t _686;
  uint32_t _687;
  void* _688;
  uint32_t _689;
  uint32_t _690;
  void* _691;
  uint32_t _692;
  uint32_t _693;
  void* _694;
  uint32_t _695;
  void* _696;
  uint32_t _697;
  uint32_t _698;
  uint32_t _699;
  uint32_t _700;
  uint32_t _701;
  uint32_t _702;
  void* _703;
  uint32_t _704;
  uint32_t _705;
  uint32_t _706;
  uint32_t _707;
  void* _708;
  uint32_t _709;
  uint32_t _710;
  void* _711;
  uint32_t _712;
  uint32_t _713;
  void* _714;
  uint32_t _715;
  uint32_t _716;
  void* _717;
  uint32_t _718;
  uint32_t _719;
  uint32_t _720;
  void* _721;
  uint32_t _722;
  uint32_t _723;
  void* _724;
  uint32_t _725;
  uint32_t _726;
  void* _727;
  uint32_t _728;
  uint32_t _729;
  void* _730;
  uint32_t _731;
  void* _732;
  uint32_t _733;
  uint32_t _734;
  void* _735;
  uint32_t _736;
  void* _737;
  uint32_t _738;
  uint32_t _739;
  void* _740;
  uint32_t _741;
  uint32_t _742;
  void* _743;
  uint32_t _744;
  void* _745;
  uint32_t _746;
  uint32_t _747;
  uint32_t _748;
  uint32_t _749;
  uint32_t _750;
  uint32_t _751;
  uint32_t _752;
  uint32_t _753;

  goto _754;

_754:
  _616 = (void*) alloca(sizeof(uint32_t));
  _617 = (void*) alloca(sizeof(uint32_t));
  *(uint32_t*)_616 = _615;
  *(uint32_t*)_617 = 0;
  goto _755;

_755:
  _618 = (void*) alloca(sizeof(void*));
  _619 = (void*) alloca(sizeof(uint32_t));
  _620 = (void*) alloca(sizeof(uint32_t));
  _621 = (void*) alloca(sizeof(void*));
  _622 = (void*) alloca(sizeof(uint32_t));
  _623 = (void*) alloca(sizeof(uint32_t));
  _624 = (void*) alloca(sizeof(uint32_t));
  _625 = (void*) alloca(sizeof(uint32_t));
  _626 = (void*) alloca(sizeof(uint32_t));
  _627 = (void*) alloca(sizeof(uint32_t));
  *(void**)_618 = _611;
  *(uint32_t*)_619 = _612;
  *(uint32_t*)_620 = _613;
  *(void**)_621 = _614;
  _628 = recursionDepth;
  _629 = llvm_add_u32(_628, 1);
  recursionDepth = _629;
  if ((((int32_t)_629) > ((int32_t)1000u))) {
    goto _756;
  } else {
    goto _757;
  }

_756:
  _630 = fused_setErrorMessage(0, (&_OC_str_OC_13));
  _631 = *(void**)_621;
  *(uint32_t*)_631 = 1;
  _632 = recursionDepth;
  recursionDepth = (llvm_add_u32(_632, -1));
  goto _758;

_757:
  _633 = *(void**)_618;
  if ((_633 != ((void*)/*NULL*/0))) {
    goto _759;
  } else {
    goto _760;
  }

_760:
  _634 = fused_setErrorMessage(0, (&_OC_str_OC_14));
  _635 = *(void**)_621;
  *(uint32_t*)_635 = 1;
  _636 = recursionDepth;
  recursionDepth = (llvm_add_u32(_636, -1));
  goto _758;

_759:
  _637 = *(uint32_t*)_619;
  if ((((int32_t)_637) < ((int32_t)0u))) {
    goto _761;
  } else {
    goto _762;
  }

_762:
  _638 = *(uint32_t*)_620;
  if ((((int32_t)_638) < ((int32_t)0u))) {
    goto _761;
  } else {
    goto _763;
  }

_763:
  _639 = *(uint32_t*)_619;
  if ((((int32_t)_639) >= ((int32_t)1000u))) {
    goto _761;
  } else {
    goto _764;
  }

_764:
  _640 = *(uint32_t*)_620;
  if ((((int32_t)_640) >= ((int32_t)1000u))) {
    goto _761;
  } else {
    goto _765;
  }

_761:
  _641 = fused_setErrorMessage(0, (&_OC_str_OC_15));
  _642 = *(void**)_621;
  *(uint32_t*)_642 = 1;
  _643 = recursionDepth;
  recursionDepth = (llvm_add_u32(_643, -1));
  goto _758;

_765:
  _644 = *(uint32_t*)_619;
  _645 = *(uint32_t*)_620;
  if ((((int32_t)_644) < ((int32_t)_645))) {
    goto _766;
  } else {
    goto _767;
  }

_766:
  _646 = *(uint32_t*)_619;
  _647 = *(uint32_t*)_620;
  _648 = *(uint32_t*)_619;
  *(uint32_t*)_622 = (llvm_add_u32(_646, (llvm_sdiv_u32((llvm_sub_u32(_647, _648)), 2))));
  _649 = *(void**)_618;
  _650 = *(uint32_t*)_619;
  _651 = *(uint32_t*)(((&((uint32_t*)_649)[((int64_t)(((int64_t)(int32_t)_650)))])));
  _652 = *(void**)_618;
  _653 = *(uint32_t*)_622;
  _654 = *(uint32_t*)(((&((uint32_t*)_652)[((int64_t)(((int64_t)(int32_t)_653)))])));
  if ((((int32_t)_651) <= ((int32_t)_654))) {
    goto _768;
  } else {
    goto _769;
  }

_768:
  _655 = *(void**)_618;
  _656 = *(uint32_t*)_622;
  _657 = *(uint32_t*)(((&((uint32_t*)_655)[((int64_t)(((int64_t)(int32_t)_656)))])));
  _658 = *(void**)_618;
  _659 = *(uint32_t*)_620;
  _660 = *(uint32_t*)(((&((uint32_t*)_658)[((int64_t)(((int64_t)(int32_t)_659)))])));
  if ((((int32_t)_657) <= ((int32_t)_660))) {
    goto _770;
  } else {
    goto _771;
  }

_770:
  _661 = *(uint32_t*)_622;
  *(uint32_t*)_623 = _661;
  goto _772;

_771:
  _662 = *(void**)_618;
  _663 = *(uint32_t*)_619;
  _664 = *(uint32_t*)(((&((uint32_t*)_662)[((int64_t)(((int64_t)(int32_t)_663)))])));
  _665 = *(void**)_618;
  _666 = *(uint32_t*)_620;
  _667 = *(uint32_t*)(((&((uint32_t*)_665)[((int64_t)(((int64_t)(int32_t)_666)))])));
  if ((((int32_t)_664) <= ((int32_t)_667))) {
    goto _773;
  } else {
    goto _774;
  }

_773:
  _668 = *(uint32_t*)_620;
  *(uint32_t*)_623 = _668;
  goto _775;

_774:
  _669 = *(uint32_t*)_619;
  *(uint32_t*)_623 = _669;
  goto _775;

_775:
  goto _772;

_772:
  goto _776;

_769:
  _670 = *(void**)_618;
  _671 = *(uint32_t*)_619;
  _672 = *(uint32_t*)(((&((uint32_t*)_670)[((int64_t)(((int64_t)(int32_t)_671)))])));
  _673 = *(void**)_618;
  _674 = *(uint32_t*)_620;
  _675 = *(uint32_t*)(((&((uint32_t*)_673)[((int64_t)(((int64_t)(int32_t)_674)))])));
  if ((((int32_t)_672) <= ((int32_t)_675))) {
    goto _777;
  } else {
    goto _778;
  }

_777:
  _676 = *(uint32_t*)_619;
  *(uint32_t*)_623 = _676;
  goto _779;

_778:
  _677 = *(void**)_618;
  _678 = *(uint32_t*)_622;
  _679 = *(uint32_t*)(((&((uint32_t*)_677)[((int64_t)(((int64_t)(int32_t)_678)))])));
  _680 = *(void**)_618;
  _681 = *(uint32_t*)_620;
  _682 = *(uint32_t*)(((&((uint32_t*)_680)[((int64_t)(((int64_t)(int32_t)_681)))])));
  if ((((int32_t)_679) <= ((int32_t)_682))) {
    goto _780;
  } else {
    goto _781;
  }

_780:
  _683 = *(uint32_t*)_620;
  *(uint32_t*)_623 = _683;
  goto _782;

_781:
  _684 = *(uint32_t*)_622;
  *(uint32_t*)_623 = _684;
  goto _782;

_782:
  goto _779;

_779:
  goto _776;

_776:
  _685 = *(void**)_618;
  _686 = *(uint32_t*)_620;
  _687 = *(uint32_t*)(((&((uint32_t*)_685)[((int64_t)(((int64_t)(int32_t)_686)))])));
  *(uint32_t*)_624 = _687;
  _688 = *(void**)_618;
  _689 = *(uint32_t*)_623;
  _690 = *(uint32_t*)(((&((uint32_t*)_688)[((int64_t)(((int64_t)(int32_t)_689)))])));
  _691 = *(void**)_618;
  _692 = *(uint32_t*)_620;
  *(uint32_t*)(((&((uint32_t*)_691)[((int64_t)(((int64_t)(int32_t)_692)))]))) = _690;
  _693 = *(uint32_t*)_624;
  _694 = *(void**)_618;
  _695 = *(uint32_t*)_623;
  *(uint32_t*)(((&((uint32_t*)_694)[((int64_t)(((int64_t)(int32_t)_695)))]))) = _693;
  _696 = *(void**)_618;
  _697 = *(uint32_t*)_620;
  _698 = *(uint32_t*)(((&((uint32_t*)_696)[((int64_t)(((int64_t)(int32_t)_697)))])));
  *(uint32_t*)_625 = _698;
  _699 = *(uint32_t*)_619;
  *(uint32_t*)_626 = (llvm_sub_u32(_699, 1));
  _700 = *(uint32_t*)_619;
  *(uint32_t*)_627 = _700;
  goto _783;

  do {     /* Syntactic loop '' to make GCC happy */
_783:
  _701 = *(uint32_t*)_627;
  _702 = *(uint32_t*)_620;
  if ((((int32_t)_701) < ((int32_t)_702))) {
    goto _784;
  } else {
    goto _785;
  }

_784:
  _703 = *(void**)_618;
  _704 = *(uint32_t*)_627;
  _705 = *(uint32_t*)(((&((uint32_t*)_703)[((int64_t)(((int64_t)(int32_t)_704)))])));
  _706 = *(uint32_t*)_625;
  if ((((int32_t)_705) <= ((int32_t)_706))) {
    goto _786;
  } else {
    goto _787;
  }

_786:
  _707 = *(uint32_t*)_626;
  *(uint32_t*)_626 = (llvm_add_u32(_707, 1));
  _708 = *(void**)_618;
  _709 = *(uint32_t*)_626;
  _710 = *(uint32_t*)(((&((uint32_t*)_708)[((int64_t)(((int64_t)(int32_t)_709)))])));
  *(uint32_t*)_624 = _710;
  _711 = *(void**)_618;
  _712 = *(uint32_t*)_627;
  _713 = *(uint32_t*)(((&((uint32_t*)_711)[((int64_t)(((int64_t)(int32_t)_712)))])));
  _714 = *(void**)_618;
  _715 = *(uint32_t*)_626;
  *(uint32_t*)(((&((uint32_t*)_714)[((int64_t)(((int64_t)(int32_t)_715)))]))) = _713;
  _716 = *(uint32_t*)_624;
  _717 = *(void**)_618;
  _718 = *(uint32_t*)_627;
  *(uint32_t*)(((&((uint32_t*)_717)[((int64_t)(((int64_t)(int32_t)_718)))]))) = _716;
  _719 = globalCounter;
  globalCounter = (llvm_add_u32(_719, 1));
  goto _787;

_787:
  goto _788;

_788:
  _720 = *(uint32_t*)_627;
  *(uint32_t*)_627 = (llvm_add_u32(_720, 1));
  goto _783;

  } while (1); /* end of syntactic loop '' */
_785:
  _721 = *(void**)_618;
  _722 = *(uint32_t*)_626;
  _723 = *(uint32_t*)(((&((uint32_t*)_721)[((int64_t)(((int64_t)(int32_t)(llvm_add_u32(_722, 1)))))])));
  *(uint32_t*)_624 = _723;
  _724 = *(void**)_618;
  _725 = *(uint32_t*)_620;
  _726 = *(uint32_t*)(((&((uint32_t*)_724)[((int64_t)(((int64_t)(int32_t)_725)))])));
  _727 = *(void**)_618;
  _728 = *(uint32_t*)_626;
  *(uint32_t*)(((&((uint32_t*)_727)[((int64_t)(((int64_t)(int32_t)(llvm_add_u32(_728, 1)))))]))) = _726;
  _729 = *(uint32_t*)_624;
  _730 = *(void**)_618;
  _731 = *(uint32_t*)_620;
  *(uint32_t*)(((&((uint32_t*)_730)[((int64_t)(((int64_t)(int32_t)_731)))]))) = _729;
  _732 = *(void**)_618;
  _733 = *(uint32_t*)_619;
  _734 = *(uint32_t*)_626;
  _735 = *(void**)_621;
  _736 = fused_quickSort(0, _732, _733, _734, _735, 0);
  _737 = *(void**)_621;
  _738 = *(uint32_t*)_737;
  if ((_738 != 0u)) {
    goto _789;
  } else {
    goto _790;
  }

_789:
  _739 = recursionDepth;
  recursionDepth = (llvm_add_u32(_739, -1));
  goto _758;

_790:
  _740 = *(void**)_618;
  _741 = *(uint32_t*)_626;
  _742 = *(uint32_t*)_620;
  _743 = *(void**)_621;
  _744 = fused_quickSort(0, _740, (llvm_add_u32(_741, 2)), _742, _743, 0);
  _745 = *(void**)_621;
  _746 = *(uint32_t*)_745;
  if ((_746 != 0u)) {
    goto _791;
  } else {
    goto _792;
  }

_791:
  _747 = recursionDepth;
  recursionDepth = (llvm_add_u32(_747, -1));
  goto _758;

_792:
  goto _767;

_767:
  _748 = recursionDepth;
  recursionDepth = (llvm_add_u32(_748, -1));
  goto _793;

  do {     /* Syntactic loop '' to make GCC happy */
_793:
  _749 = *(uint32_t*)_616;
  if ((_749 != 0u)) {
    goto _794;
  } else {
    goto _795;
  }

_794:
  _750 = *(uint32_t*)_616;
  _751 = *(uint32_t*)_617;
  *(uint32_t*)_617 = (llvm_add_u32(_751, (_750 & 1)));
  _752 = *(uint32_t*)_616;
  *(uint32_t*)_616 = (llvm_ashr_u32(_752, 1));
  goto _793;

  } while (1); /* end of syntactic loop '' */
_795:
  _753 = *(uint32_t*)_617;
  return _753;
_758:
  return 0;
}


uint32_t fused_performSimpleCalculations(bool _796, void* _797, uint32_t _798) {
  void* _799;
  void* _800;
  void* _801;
  void* _802;
  void* _803;
  void* _804;
  void* _805;
  void* _806;
  void* _807;
  uint32_t _808;
  uint32_t _809;
  uint32_t _810;
  uint32_t _811;
  uint32_t _812;
  uint32_t _813;
  uint32_t _814;
  uint32_t _815;
  uint32_t _816;
  uint32_t _817;
  uint32_t _818;
  uint32_t _819;
  uint32_t _820;
  uint32_t _821;
  uint32_t _822;
  uint32_t _823;
  void* _824;
  uint32_t _825;
  uint32_t _826;
  void* _827;
  uint32_t _828;
  uint32_t _829;
  uint32_t _830;
  uint32_t _831;
  uint32_t _832;
  uint32_t _833;
  uint32_t _834;
  uint32_t _835;
  uint32_t _836;
  uint32_t _837;
  uint32_t _838;
  uint32_t _839;
  uint32_t _840;
  uint32_t _841;
  uint32_t _842;
  uint32_t _843;
  uint32_t _844;
  uint32_t _845;
  uint32_t _846;
  uint32_t _847;
  uint32_t _848;
  uint32_t _849;
  uint32_t _850;
  uint32_t _851;
  uint32_t _852;
  uint32_t _853;
  uint32_t _854;
  uint32_t _855;
  uint32_t _856;
  uint32_t _857;
  uint32_t _858;
  uint32_t _859;
  uint32_t _860;
  uint32_t _861;

  goto _862;

_862:
  _799 = (void*) alloca(sizeof(void*));
  _800 = (void*) alloca(sizeof(uint32_t));
  _801 = (void*) alloca(sizeof(struct l_array_100_uint32_t));
  _802 = (void*) alloca(sizeof(uint32_t));
  _803 = (void*) alloca(sizeof(uint32_t));
  _804 = (void*) alloca(sizeof(uint32_t));
  _805 = (void*) alloca(sizeof(uint32_t));
  _806 = (void*) alloca(sizeof(uint32_t));
  *(void**)_799 = _797;
  *(uint32_t*)_800 = _798;
  *(uint32_t*)_802 = 0;
  goto _863;

_863:
  _807 = (void*) alloca(sizeof(uint32_t));
  *(uint32_t*)_807 = 100;
  _808 = *(uint32_t*)_807;
  if ((((int32_t)_808) > ((int32_t)50u))) {
    goto _864;
  } else {
    goto _865;
  }

_864:
  _809 = *(uint32_t*)_807;
  _810 = calculationResult;
  calculationResult = (llvm_add_u32(_810, (llvm_mul_u32(_809, 2))));
  goto _866;

_865:
  _811 = *(uint32_t*)_807;
  _812 = calculationResult;
  calculationResult = (llvm_add_u32(_812, (llvm_sdiv_u32(_811, 2))));
  goto _867;

_867:
  _813 = *(uint32_t*)_802;
  _814 = *(uint32_t*)_800;
  if ((((int32_t)_813) < ((int32_t)_814))) {
    goto _868;
  } else {
    goto _869;
  }

_868:
  _815 = *(uint32_t*)_802;
  *(uint32_t*)(((&((struct l_array_100_uint32_t*)_801)->array[((int64_t)(((int64_t)(int32_t)_815)))]))) = 1;
  goto _870;

_869:
  *(uint32_t*)_803 = 1;
  goto _871;

_870:
  _816 = *(uint32_t*)_802;
  *(uint32_t*)_802 = (llvm_add_u32(_816, 1));
  goto _866;

_866:
  _817 = *(uint32_t*)_807;
  if (((llvm_srem_u32(_817, 3)) == 0u)) {
    goto _872;
  } else {
    goto _873;
  }

_872:
  _818 = calculationResult;
  calculationResult = (llvm_mul_u32(_818, 3));
  goto _874;

_873:
  _819 = calculationResult;
  calculationResult = (llvm_add_u32(_819, 3));
  goto _871;

  do {     /* Syntactic loop '' to make GCC happy */
_871:
  _820 = *(uint32_t*)_803;
  _821 = *(uint32_t*)_800;
  if ((((int32_t)_820) < ((int32_t)_821))) {
    goto _875;
  } else {
    goto _876;
  }

_875:
  *(uint32_t*)_804 = 0;
  goto _877;

_877:
  _822 = *(uint32_t*)_804;
  _823 = *(uint32_t*)_803;
  if ((((int32_t)_822) < ((int32_t)_823))) {
    goto _878;
  } else {
    goto _879;
  }

_879:
  goto _880;

_880:
  _834 = *(uint32_t*)_803;
  *(uint32_t*)_803 = (llvm_add_u32(_834, 1));
  goto _871;

  } while (1); /* end of syntactic loop '' */
_876:
  *(uint32_t*)_805 = 0;
  *(uint32_t*)_806 = 0;
  goto _881;

_878:
  _824 = *(void**)_799;
  _825 = *(uint32_t*)_803;
  _826 = *(uint32_t*)(((&((uint32_t*)_824)[((int64_t)(((int64_t)(int32_t)_825)))])));
  _827 = *(void**)_799;
  _828 = *(uint32_t*)_804;
  _829 = *(uint32_t*)(((&((uint32_t*)_827)[((int64_t)(((int64_t)(int32_t)_828)))])));
  if ((((int32_t)_826) > ((int32_t)_829))) {
    goto _882;
  } else {
    goto _883;
  }

_882:
  _830 = *(uint32_t*)_803;
  _831 = *(uint32_t*)(((&((struct l_array_100_uint32_t*)_801)->array[((int64_t)(((int64_t)(int32_t)_830)))])));
  _832 = *(uint32_t*)_804;
  _833 = *(uint32_t*)(((&((struct l_array_100_uint32_t*)_801)->array[((int64_t)(((int64_t)(int32_t)_832)))])));
  if ((((int32_t)_831) < ((int32_t)(llvm_add_u32(_833, 1))))) {
    goto _884;
  } else {
    goto _883;
  }

_883:
  goto _885;

_884:
  _835 = *(uint32_t*)_804;
  _836 = *(uint32_t*)(((&((struct l_array_100_uint32_t*)_801)->array[((int64_t)(((int64_t)(int32_t)_835)))])));
  _837 = *(uint32_t*)_803;
  *(uint32_t*)(((&((struct l_array_100_uint32_t*)_801)->array[((int64_t)(((int64_t)(int32_t)_837)))]))) = (llvm_add_u32(_836, 1));
  goto _883;

_885:
  _838 = *(uint32_t*)_804;
  *(uint32_t*)_804 = (llvm_add_u32(_838, 1));
  goto _874;

_874:
  _839 = calculationResult;
  if ((((int32_t)_839) >= ((int32_t)150u))) {
    goto _886;
  } else {
    goto _887;
  }

_886:
  _840 = calculationResult;
  if ((((int32_t)_840) <= ((int32_t)300u))) {
    goto _888;
  } else {
    goto _887;
  }

_888:
  _841 = calculationResult;
  calculationResult = (llvm_sub_u32(_841, 50));
  goto _889;

_887:
  _842 = calculationResult;
  calculationResult = (llvm_add_u32(_842, 50));
  goto _881;

_881:
  _843 = *(uint32_t*)_806;
  _844 = *(uint32_t*)_800;
  if ((((int32_t)_843) < ((int32_t)_844))) {
    goto _890;
  } else {
    goto _891;
  }

_890:
  _845 = *(uint32_t*)_805;
  _846 = *(uint32_t*)_806;
  _847 = *(uint32_t*)(((&((struct l_array_100_uint32_t*)_801)->array[((int64_t)(((int64_t)(int32_t)_846)))])));
  if ((((int32_t)_845) < ((int32_t)_847))) {
    goto _892;
  } else {
    goto _893;
  }

_891:
  _848 = *(uint32_t*)_805;
  return _848;
_892:
  _849 = *(uint32_t*)_806;
  _850 = *(uint32_t*)(((&((struct l_array_100_uint32_t*)_801)->array[((int64_t)(((int64_t)(int32_t)_849)))])));
  *(uint32_t*)_805 = _850;
  goto _893;

_893:
  goto _894;

_894:
  _851 = *(uint32_t*)_806;
  *(uint32_t*)_806 = (llvm_add_u32(_851, 1));
  goto _889;

_889:
  _852 = calculationResult;
  if (((llvm_srem_u32(_852, 2)) == 0u)) {
    goto _895;
  } else {
    goto _896;
  }

_895:
  _853 = calculationResult;
  calculationResult = (llvm_sdiv_u32(_853, 2));
  goto _897;

_896:
  _854 = calculationResult;
  calculationResult = (llvm_mul_u32(_854, 2));
  goto _897;

_897:
  _855 = calculationResult;
  if ((((int32_t)(llvm_srem_u32(_855, 10))) < ((int32_t)5u))) {
    goto _898;
  } else {
    goto _899;
  }

_898:
  _856 = calculationResult;
  calculationResult = (llvm_add_u32(_856, 5));
  goto _900;

_899:
  _857 = calculationResult;
  calculationResult = (llvm_sub_u32(_857, 5));
  goto _900;

_900:
  _858 = calculationResult;
  if ((((int32_t)_858) > ((int32_t)1000u))) {
    goto _901;
  } else {
    goto _902;
  }

_901:
  calculationResult = 1000;
  goto _903;

_902:
  _859 = calculationResult;
  calculationResult = (llvm_add_u32(_859, 10));
  goto _903;

_903:
  _860 = calculationResult;
  _861 = printf((&_OC_str_OC_27), _860);
  return 0;
}


struct l_struct_fused_return_projectA_main_memoizedFib fused_projectA_main(bool _904, uint32_t _905) {
  void* _906;
  void* _907;
  uint32_t _908;
  uint32_t _909;
  uint32_t _910;
  uint32_t _911;
  uint32_t _912;
  uint32_t _913;
  struct l_struct_fused_return_projectA_main_memoizedFib llvm_cbe_struct_2e_target;
  struct l_struct_fused_return_projectA_main_memoizedFib llvm_cbe_struct_2e_bunker1;
  uint32_t _914;
  uint32_t _915;
  struct l_struct_fused_return_projectA_main_memoizedFib _916;
  uint32_t _917;
  struct l_struct_fused_return_projectA_main_memoizedFib _918;
  uint32_t _919;
  uint32_t _920;
  uint32_t _921;
  void* _922;
  void* _923;
  void* _924;
  void* _925;
  void* _926;
  void* _927;
  void* _928;
  void* _929;
  void* _930;
  void* _931;
  void* _932;
  void* _933;
  void* _934;
  void* _935;
  void* _936;
  void* _937;
  void* _938;
  void* _939;
  void* _940;
  uint64_t _941;
  struct l_struct_fused_return_createDynamicArray_processMatrix _942;
  void* _943;
  void* _944;
  uint32_t _945;
  uint32_t _946;
  void* _947;
  uint32_t _948;
  void* _949;
  void* _950;
  uint32_t _951;
  uint32_t _952;
  void* _953;
  void* _954;
  void* _955;
  void* _956;
  void* _957;
  uint32_t _958;
  void* _959;
  void* _960;
  void* _961;
  void* _962;
  void* _963;
  void* _964;
  void* _965;
  uint32_t _966;
  uint32_t _967;
  uint32_t _968;
  void* _969;
  void* _970;
  uint32_t _971;
  void* _972;
  uint32_t _973;
  uint32_t _974;
  void* _975;
  void* _976;
  uint32_t _977;
  void* _978;
  uint32_t _979;
  uint32_t _980;
  uint32_t _981;
  void* _982;
  void* _983;
  void* _984;
  void* _985;
  void* _986;
  uint32_t _987;
  uint32_t _988;
  void* _989;
  uint32_t _990;
  void* _991;
  void* _992;
  uint32_t _993;
  void* _994;
  void* _995;
  void* _996;
  uint32_t _997;
  void* _998;
  uint32_t _999;
  void* _1000;
  void* _1001;
  void* _1002;
  void* _1003;
  void* _1004;
  void* _1005;
  void* _1006;
  void* _1007;
  void* _1008;
  uint32_t _1009;
  void* _1010;
  uint32_t _1011;
  void* _1012;
  void* _1013;
  void* _1014;
  uint32_t _1015;
  uint32_t _1016;
  void* _1017;
  void* _1018;
  void* _1019;
  uint32_t _1020;
  void* _1021;
  uint32_t _1022;
  void* _1023;
  void* _1024;
  uint32_t _1025;
  void* _1026;
  void* _1027;
  void* _1028;
  uint32_t _1029;
  void* _1030;
  void* _1031;
  void* _1032;
  uint32_t _1033;
  void* _1034;
  uint32_t _1035;
  void* _1036;
  void* _1037;
  void* _1038;
  void* _1039;
  void* _1040;
  void* _1041;
  void* _1042;
  void* _1043;
  void* _1044;
  void* _1045;
  void* _1046;
  void* _1047;
  void* _1048;
  void* _1049;
  void* _1050;
  bool _1051;
  bool _1051__PHI_TEMPORARY;
  void* _1052;
  void* _1053;
  void* _1054;
  void* _1055;
  void* _1056;
  void* _1057;
  void* _1058;
  uint32_t _1059;
  uint32_t _1060;
  void* _1061;
  void* _1062;
  uint32_t _1063;
  uint32_t _1064;
  bool _1065;
  bool _1065__PHI_TEMPORARY;
  void* _1066;
  uint32_t _1067;
  void* _1068;
  void* _1069;
  void* _1070;
  uint32_t _1071;
  void* _1072;
  void* _1073;
  void* _1074;
  void* _1075;
  void* _1076;
  void* _1077;
  void* _1078;
  uint32_t _1079;
  uint32_t _1080;
  struct l_struct_fused_return_projectA_main_memoizedFib llvm_cbe_struct_2e_bunker;

  goto _1081;

_1081:
  _906 = (void*) alloca(sizeof(uint32_t));
  _907 = (void*) alloca(sizeof(uint32_t));
  *(uint32_t*)_907 = _905;
  _908 = *(uint32_t*)_907;
  _909 = *(uint32_t*)(((&(&cache)->array[((int64_t)(((int64_t)(int32_t)_908)))])));
  if ((_909 != 4294967295u)) {
    goto _1082;
  } else {
    goto _1083;
  }

_1082:
  _910 = *(uint32_t*)_907;
  _911 = *(uint32_t*)(((&(&cache)->array[((int64_t)(((int64_t)(int32_t)_910)))])));
  *(uint32_t*)_906 = _911;
  goto _1084;

_1083:
  _912 = *(uint32_t*)_907;
  if ((((int32_t)_912) <= ((int32_t)1u))) {
    goto _1085;
  } else {
    goto _1086;
  }

_1084:
  _913 = *(uint32_t*)_906;
  llvm_cbe_struct_2e_target = llvm_ctor_struct_fused_return_projectA_main_memoizedFib(0, 0);
  llvm_cbe_struct_2e_target.field0 = _913;
  llvm_cbe_struct_2e_bunker1 = llvm_cbe_struct_2e_target;
  llvm_cbe_struct_2e_bunker1.field1 = 0;
  return llvm_cbe_struct_2e_bunker1;
_1085:
  _914 = *(uint32_t*)_907;
  *(uint32_t*)_906 = _914;
  goto _1084;

_1086:
  _915 = *(uint32_t*)_907;
  _916 = fused_projectA_main(1, (llvm_sub_u32(_915, 1)));
  _917 = *(uint32_t*)_907;
  _918 = fused_projectA_main(1, (llvm_sub_u32(_917, 2)));
  _919 = *(uint32_t*)_907;
  *(uint32_t*)(((&(&cache)->array[((int64_t)(((int64_t)(int32_t)_919)))]))) = (llvm_add_u32(((_916.field0)), ((_918.field0))));
  _920 = *(uint32_t*)_907;
  _921 = *(uint32_t*)(((&(&cache)->array[((int64_t)(((int64_t)(int32_t)_920)))])));
  *(uint32_t*)_906 = _921;
  goto _1087;

_1087:
  _922 = (void*) alloca(sizeof(uint32_t));
  _923 = (void*) alloca(sizeof(void*));
  _924 = (void*) alloca(sizeof(uint32_t));
  _925 = (void*) alloca(sizeof(void*));
  _926 = (void*) alloca(sizeof(void*));
  _927 = (void*) alloca(sizeof(uint32_t));
  _928 = (void*) alloca(sizeof(uint32_t));
  _929 = (void*) alloca(sizeof(void*));
  _930 = (void*) alloca(sizeof(uint32_t));
  _931 = (void*) alloca(sizeof(void*));
  _932 = (void*) alloca(sizeof(uint32_t));
  _933 = (void*) alloca(sizeof(uint32_t));
  _934 = (void*) alloca(sizeof(void*));
  _935 = (void*) alloca(sizeof(void*));
  _936 = (void*) alloca(sizeof(uint32_t));
  _937 = (void*) alloca(sizeof(void*));
  _938 = (void*) alloca(sizeof(uint32_t));
  _939 = (void*) alloca(sizeof(uint32_t));
  _940 = (void*) alloca(sizeof(void*));
  _941 = time(((void*)/*NULL*/0));
  srand((((uint32_t)_941)));
  _942 = fused_createDynamicArray(0, 10, ((void*)/*NULL*/0), 0);
  *(void**)_923 = ((_942.field1));
  _943 = *(void**)_923;
  if ((_943 != ((void*)/*NULL*/0))) {
    goto _1088;
  } else {
    goto _1089;
  }

_1089:
  _944 = getErrorMessage();
  _945 = printf((&_OC_str_OC_28), _944);
  *(uint32_t*)_922 = -1;
  goto _1090;

_1088:
  *(uint32_t*)_924 = 0;
  goto _1091;

  do {     /* Syntactic loop '' to make GCC happy */
_1091:
  _946 = *(uint32_t*)_924;
  if ((((int32_t)_946) < ((int32_t)15u))) {
    goto _1092;
  } else {
    goto _1093;
  }

_1092:
  _947 = *(void**)_923;
  _948 = rand();
  pushBack(_947, (llvm_srem_u32(_948, 100)));
  _949 = globalErrorMessage;
  if ((_949 != ((void*)/*NULL*/0))) {
    goto _1094;
  } else {
    goto _1095;
  }

_1095:
  goto _1096;

_1096:
  _952 = *(uint32_t*)_924;
  *(uint32_t*)_924 = (llvm_add_u32(_952, 1));
  goto _1091;

  } while (1); /* end of syntactic loop '' */
_1094:
  _950 = getErrorMessage();
  _951 = printf((&_OC_str_OC_29), _950);
  goto _1093;

_1093:
  _953 = fused_createMatrix(0, 3, 3, ((void*)/*NULL*/0));
  *(void**)_925 = _953;
  _954 = fused_createMatrix(0, 3, 3, ((void*)/*NULL*/0));
  *(void**)_926 = _954;
  _955 = *(void**)_925;
  if ((_955 != ((void*)/*NULL*/0))) {
    goto _1097;
  } else {
    goto _1098;
  }

_1097:
  _956 = *(void**)_926;
  if ((_956 != ((void*)/*NULL*/0))) {
    goto _1099;
  } else {
    goto _1098;
  }

_1098:
  _957 = getErrorMessage();
  _958 = printf((&_OC_str_OC_28), _957);
  _959 = *(void**)_925;
  if ((_959 != ((void*)/*NULL*/0))) {
    goto _1100;
  } else {
    goto _1101;
  }

_1100:
  _960 = *(void**)_925;
  free((((void*)_960)));
  goto _1101;

_1101:
  _961 = *(void**)_926;
  if ((_961 != ((void*)/*NULL*/0))) {
    goto _1102;
  } else {
    goto _1103;
  }

_1102:
  _962 = *(void**)_926;
  free((((void*)_962)));
  goto _1103;

_1103:
  _963 = *(void**)_923;
  _964 = *(void**)(((&(((struct l_struct_struct_OC_DynamicArray*)_963)->field0))));
  free((((void*)_964)));
  _965 = *(void**)_923;
  free((((void*)_965)));
  *(uint32_t*)_922 = -1;
  goto _1090;

_1099:
  *(uint32_t*)_927 = 0;
  goto _1104;

  do {     /* Syntactic loop '' to make GCC happy */
_1104:
  _966 = *(uint32_t*)_927;
  if ((((int32_t)_966) < ((int32_t)3u))) {
    goto _1105;
  } else {
    goto _1106;
  }

_1105:
  *(uint32_t*)_928 = 0;
  goto _1107;

  do {     /* Syntactic loop '' to make GCC happy */
_1107:
  _967 = *(uint32_t*)_928;
  if ((((int32_t)_967) < ((int32_t)3u))) {
    goto _1108;
  } else {
    goto _1109;
  }

_1108:
  _968 = rand();
  _969 = *(void**)_925;
  _970 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_969)->field0))));
  _971 = *(uint32_t*)_927;
  _972 = *(void**)(((&((void**)_970)[((int64_t)(((int64_t)(int32_t)_971)))])));
  _973 = *(uint32_t*)_928;
  *(uint32_t*)(((&((uint32_t*)_972)[((int64_t)(((int64_t)(int32_t)_973)))]))) = (llvm_srem_u32(_968, 10));
  _974 = rand();
  _975 = *(void**)_926;
  _976 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_975)->field0))));
  _977 = *(uint32_t*)_927;
  _978 = *(void**)(((&((void**)_976)[((int64_t)(((int64_t)(int32_t)_977)))])));
  _979 = *(uint32_t*)_928;
  *(uint32_t*)(((&((uint32_t*)_978)[((int64_t)(((int64_t)(int32_t)_979)))]))) = (llvm_srem_u32(_974, 10));
  goto _1110;

_1110:
  _980 = *(uint32_t*)_928;
  *(uint32_t*)_928 = (llvm_add_u32(_980, 1));
  goto _1107;

  } while (1); /* end of syntactic loop '' */
_1109:
  goto _1111;

_1111:
  _981 = *(uint32_t*)_927;
  *(uint32_t*)_927 = (llvm_add_u32(_981, 1));
  goto _1104;

  } while (1); /* end of syntactic loop '' */
_1106:
  _982 = *(void**)_925;
  _983 = *(void**)_926;
  _984 = multiplyMatrices(_982, _983);
  *(void**)_929 = _984;
  _985 = *(void**)_929;
  if ((_985 != ((void*)/*NULL*/0))) {
    goto _1112;
  } else {
    goto _1113;
  }

_1113:
  _986 = getErrorMessage();
  _987 = printf((&_OC_str_OC_28), _986);
  *(uint32_t*)_930 = 0;
  goto _1114;

  do {     /* Syntactic loop '' to make GCC happy */
_1114:
  _988 = *(uint32_t*)_930;
  _989 = *(void**)_925;
  _990 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_989)->field1))));
  if ((((int32_t)_988) < ((int32_t)_990))) {
    goto _1115;
  } else {
    goto _1116;
  }

_1115:
  _991 = *(void**)_925;
  _992 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_991)->field0))));
  _993 = *(uint32_t*)_930;
  _994 = *(void**)(((&((void**)_992)[((int64_t)(((int64_t)(int32_t)_993)))])));
  free((((void*)_994)));
  _995 = *(void**)_926;
  _996 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_995)->field0))));
  _997 = *(uint32_t*)_930;
  _998 = *(void**)(((&((void**)_996)[((int64_t)(((int64_t)(int32_t)_997)))])));
  free((((void*)_998)));
  goto _1117;

_1117:
  _999 = *(uint32_t*)_930;
  *(uint32_t*)_930 = (llvm_add_u32(_999, 1));
  goto _1114;

  } while (1); /* end of syntactic loop '' */
_1116:
  _1000 = *(void**)_925;
  _1001 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_1000)->field0))));
  free((((void*)_1001)));
  _1002 = *(void**)_926;
  _1003 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_1002)->field0))));
  free((((void*)_1003)));
  _1004 = *(void**)_925;
  free((((void*)_1004)));
  _1005 = *(void**)_926;
  free((((void*)_1005)));
  _1006 = *(void**)_923;
  _1007 = *(void**)(((&(((struct l_struct_struct_OC_DynamicArray*)_1006)->field0))));
  free((((void*)_1007)));
  _1008 = *(void**)_923;
  free((((void*)_1008)));
  *(uint32_t*)_922 = -1;
  goto _1090;

_1112:
  *(void**)_931 = ((void*)/*NULL*/0);
  *(uint32_t*)_932 = 0;
  goto _1118;

  do {     /* Syntactic loop '' to make GCC happy */
_1118:
  _1009 = *(uint32_t*)_932;
  if ((((int32_t)_1009) < ((int32_t)5u))) {
    goto _1119;
  } else {
    goto _1120;
  }

_1119:
  _1010 = *(void**)_931;
  _1011 = rand();
  _1012 = insertNode(_1010, (llvm_srem_u32(_1011, 50)));
  *(void**)_931 = _1012;
  _1013 = globalErrorMessage;
  if ((_1013 != ((void*)/*NULL*/0))) {
    goto _1121;
  } else {
    goto _1122;
  }

_1122:
  goto _1123;

_1123:
  _1016 = *(uint32_t*)_932;
  *(uint32_t*)_932 = (llvm_add_u32(_1016, 1));
  goto _1118;

  } while (1); /* end of syntactic loop '' */
_1121:
  _1014 = getErrorMessage();
  _1015 = printf((&_OC_str_OC_30), _1014);
  goto _1120;

_1120:
  _1017 = *(void**)_923;
  _1018 = *(void**)(((&(((struct l_struct_struct_OC_DynamicArray*)_1017)->field0))));
  free((((void*)_1018)));
  _1019 = *(void**)_923;
  free((((void*)_1019)));
  *(uint32_t*)_933 = 0;
  goto _1124;

  do {     /* Syntactic loop '' to make GCC happy */
_1124:
  _1020 = *(uint32_t*)_933;
  _1021 = *(void**)_925;
  _1022 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_1021)->field1))));
  if ((((int32_t)_1020) < ((int32_t)_1022))) {
    goto _1125;
  } else {
    goto _1126;
  }

_1125:
  _1023 = *(void**)_925;
  _1024 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_1023)->field0))));
  _1025 = *(uint32_t*)_933;
  _1026 = *(void**)(((&((void**)_1024)[((int64_t)(((int64_t)(int32_t)_1025)))])));
  free((((void*)_1026)));
  _1027 = *(void**)_926;
  _1028 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_1027)->field0))));
  _1029 = *(uint32_t*)_933;
  _1030 = *(void**)(((&((void**)_1028)[((int64_t)(((int64_t)(int32_t)_1029)))])));
  free((((void*)_1030)));
  _1031 = *(void**)_929;
  _1032 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_1031)->field0))));
  _1033 = *(uint32_t*)_933;
  _1034 = *(void**)(((&((void**)_1032)[((int64_t)(((int64_t)(int32_t)_1033)))])));
  free((((void*)_1034)));
  goto _1127;

_1127:
  _1035 = *(uint32_t*)_933;
  *(uint32_t*)_933 = (llvm_add_u32(_1035, 1));
  goto _1124;

  } while (1); /* end of syntactic loop '' */
_1126:
  _1036 = *(void**)_925;
  _1037 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_1036)->field0))));
  free((((void*)_1037)));
  _1038 = *(void**)_926;
  _1039 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_1038)->field0))));
  free((((void*)_1039)));
  _1040 = *(void**)_929;
  _1041 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_1040)->field0))));
  free((((void*)_1041)));
  _1042 = *(void**)_925;
  free((((void*)_1042)));
  _1043 = *(void**)_926;
  free((((void*)_1043)));
  _1044 = *(void**)_929;
  free((((void*)_1044)));
  _1045 = *(void**)_931;
  if ((_1045 != ((void*)/*NULL*/0))) {
    goto _1128;
  } else {
    goto _1129;
  }

_1128:
  _1046 = *(void**)_931;
  *(void**)_934 = _1046;
  _1047 = *(void**)_931;
  *(void**)_935 = _1047;
  *(uint32_t*)_936 = 0;
  goto _1130;

  do {     /* Syntactic loop '' to make GCC happy */
_1130:
  _1048 = *(void**)_935;
  if ((_1048 != ((void*)/*NULL*/0))) {
    goto _1131;
  } else {
    _1051__PHI_TEMPORARY = 0;   /* for PHI node */
    goto _1132;
  }

_1131:
  _1049 = *(void**)_935;
  _1050 = *(void**)(((&(((struct l_struct_struct_OC_Node*)_1049)->field1))));
  _1051__PHI_TEMPORARY = (_1050 != ((void*)/*NULL*/0));   /* for PHI node */
  goto _1132;

_1132:
  _1051 = _1051__PHI_TEMPORARY;
  if (_1051) {
    goto _1133;
  } else {
    goto _1134;
  }

_1133:
  _1052 = *(void**)_934;
  _1053 = *(void**)(((&(((struct l_struct_struct_OC_Node*)_1052)->field1))));
  *(void**)_934 = _1053;
  _1054 = *(void**)_935;
  _1055 = *(void**)(((&(((struct l_struct_struct_OC_Node*)_1054)->field1))));
  _1056 = *(void**)(((&(((struct l_struct_struct_OC_Node*)_1055)->field1))));
  *(void**)_935 = _1056;
  _1057 = *(void**)_934;
  _1058 = *(void**)_935;
  if ((_1057 == _1058)) {
    goto _1135;
  } else {
    goto _1136;
  }

_1136:
  goto _1130;

  } while (1); /* end of syntactic loop '' */
_1135:
  *(uint32_t*)_936 = 1;
  goto _1134;

_1134:
  _1059 = *(uint32_t*)_936;
  if ((_1059 != 0u)) {
    goto _1137;
  } else {
    goto _1138;
  }

_1137:
  _1060 = fused_setErrorMessage(0, (&_OC_str_OC_31));
  _1061 = *(void**)_931;
  *(void**)_937 = _1061;
  *(uint32_t*)_938 = 1000;
  *(uint32_t*)_939 = 0;
  goto _1139;

  do {     /* Syntactic loop '' to make GCC happy */
_1139:
  _1062 = *(void**)_937;
  if ((_1062 != ((void*)/*NULL*/0))) {
    goto _1140;
  } else {
    _1065__PHI_TEMPORARY = 0;   /* for PHI node */
    goto _1141;
  }

_1140:
  _1063 = *(uint32_t*)_939;
  _1064 = *(uint32_t*)_938;
  _1065__PHI_TEMPORARY = (((int32_t)_1063) < ((int32_t)_1064));   /* for PHI node */
  goto _1141;

_1141:
  _1065 = _1065__PHI_TEMPORARY;
  if (_1065) {
    goto _1142;
  } else {
    goto _1143;
  }

_1142:
  _1066 = *(void**)_937;
  _1067 = *(uint32_t*)(((&(((struct l_struct_struct_OC_Node*)_1066)->field3))));
  if ((_1067 != 0u)) {
    goto _1144;
  } else {
    goto _1145;
  }

_1145:
  _1068 = *(void**)_937;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_Node*)_1068)->field3)))) = 1;
  _1069 = *(void**)_937;
  _1070 = *(void**)(((&(((struct l_struct_struct_OC_Node*)_1069)->field1))));
  *(void**)_937 = _1070;
  _1071 = *(uint32_t*)_939;
  *(uint32_t*)_939 = (llvm_add_u32(_1071, 1));
  goto _1139;

  } while (1); /* end of syntactic loop '' */
_1144:
  goto _1143;

_1143:
  goto _1138;

_1138:
  goto _1146;

  do {     /* Syntactic loop '' to make GCC happy */
_1146:
  _1072 = *(void**)_931;
  if ((_1072 != ((void*)/*NULL*/0))) {
    goto _1147;
  } else {
    goto _1148;
  }

_1147:
  _1073 = *(void**)_931;
  *(void**)_940 = _1073;
  _1074 = *(void**)_931;
  _1075 = *(void**)(((&(((struct l_struct_struct_OC_Node*)_1074)->field1))));
  *(void**)_931 = _1075;
  _1076 = *(void**)_940;
  free((((void*)_1076)));
  goto _1146;

  } while (1); /* end of syntactic loop '' */
_1148:
  goto _1129;

_1129:
  _1077 = globalErrorMessage;
  if ((_1077 != ((void*)/*NULL*/0))) {
    goto _1149;
  } else {
    goto _1150;
  }

_1149:
  _1078 = globalErrorMessage;
  free(_1078);
  goto _1150;

_1150:
  _1079 = fused_performSimpleCalculations(0, ((void*)/*NULL*/0), 0);
  *(uint32_t*)_922 = 0;
  goto _1090;

_1090:
  _1080 = *(uint32_t*)_922;
  llvm_cbe_struct_2e_bunker = llvm_ctor_struct_fused_return_projectA_main_memoizedFib(0, /*UNDEF*/0);
  llvm_cbe_struct_2e_bunker.field1 = _1080;
  return llvm_cbe_struct_2e_bunker;
}


struct l_struct_fused_return_createDynamicArray_processMatrix fused_createDynamicArray(bool _1151, uint32_t _1152, void* _1153, uint32_t _1154) {
  void* _1155;
  void* _1156;
  void* _1157;
  void* _1158;
  void* _1159;
  void* _1160;
  void* _1161;
  void* _1162;
  uint32_t _1163;
  uint32_t _1164;
  uint32_t _1165;
  uint32_t _1166;
  void* _1167;
  void* _1168;
  uint32_t _1169;
  uint32_t _1170;
  void* _1171;
  void* _1172;
  void* _1173;
  void* _1174;
  void* _1175;
  uint32_t _1176;
  void* _1177;
  uint32_t _1178;
  void* _1179;
  void* _1180;
  void* _1181;
  void* _1182;
  uint32_t _1183;
  uint32_t _1184;
  uint32_t _1185;
  struct l_struct_fused_return_createDynamicArray_processMatrix llvm_cbe_struct_2e_target;
  struct l_struct_fused_return_createDynamicArray_processMatrix llvm_cbe_struct_2e_bunker1;
  uint32_t _1186;
  uint32_t _1187;
  uint32_t _1188;
  uint32_t _1189;
  void* _1190;
  uint32_t _1191;
  uint32_t _1192;
  uint32_t _1193;
  uint32_t _1194;
  uint32_t _1195;
  uint32_t _1196;
  void* _1197;
  uint32_t _1198;
  uint32_t _1199;
  uint32_t _1200;
  uint32_t _1201;
  void* _1202;
  uint32_t _1203;
  uint32_t _1204;
  uint32_t _1205;
  uint32_t _1206;
  void* _1207;
  uint32_t _1208;
  uint32_t _1209;
  uint32_t _1210;
  uint32_t _1211;
  uint32_t _1212;
  uint32_t _1213;
  void* _1214;
  struct l_struct_fused_return_createDynamicArray_processMatrix llvm_cbe_struct_2e_bunker;

  goto _1215;

_1215:
  _1155 = (void*) alloca(sizeof(void*));
  _1156 = (void*) alloca(sizeof(uint32_t));
  _1157 = (void*) alloca(sizeof(uint32_t));
  _1158 = (void*) alloca(sizeof(uint32_t));
  _1159 = (void*) alloca(sizeof(uint32_t));
  *(void**)_1155 = _1153;
  *(uint32_t*)_1156 = _1154;
  *(uint32_t*)_1157 = 0;
  *(uint32_t*)_1158 = 0;
  goto _1216;

_1216:
  _1160 = (void*) alloca(sizeof(void*));
  _1161 = (void*) alloca(sizeof(uint32_t));
  _1162 = (void*) alloca(sizeof(void*));
  *(uint32_t*)_1161 = _1152;
  _1163 = *(uint32_t*)_1161;
  if ((((int32_t)_1163) <= ((int32_t)0u))) {
    goto _1217;
  } else {
    goto _1218;
  }

_1217:
  _1164 = fused_setErrorMessage(0, (&_OC_str_OC_6));
  *(void**)_1160 = ((void*)/*NULL*/0);
  goto _1219;

_1218:
  _1165 = *(uint32_t*)_1161;
  if ((((int32_t)_1165) > ((int32_t)1000u))) {
    goto _1220;
  } else {
    goto _1221;
  }

_1220:
  _1166 = fused_setErrorMessage(0, (&_OC_str_OC_7));
  *(void**)_1160 = ((void*)/*NULL*/0);
  goto _1219;

_1221:
  _1167 = malloc(24);
  *(void**)_1162 = (((void*)_1167));
  _1168 = *(void**)_1162;
  if ((_1168 != ((void*)/*NULL*/0))) {
    goto _1222;
  } else {
    goto _1223;
  }

_1223:
  _1169 = fused_setErrorMessage(0, (&_OC_str_OC_8));
  *(void**)_1160 = ((void*)/*NULL*/0);
  goto _1219;

_1222:
  _1170 = *(uint32_t*)_1161;
  _1171 = malloc((llvm_mul_u64(4, (((int64_t)(int32_t)_1170)))));
  _1172 = *(void**)_1162;
  *(void**)(((&(((struct l_struct_struct_OC_DynamicArray*)_1172)->field0)))) = (((void*)_1171));
  _1173 = *(void**)_1162;
  _1174 = *(void**)(((&(((struct l_struct_struct_OC_DynamicArray*)_1173)->field0))));
  if ((_1174 != ((void*)/*NULL*/0))) {
    goto _1224;
  } else {
    goto _1225;
  }

_1225:
  _1175 = *(void**)_1162;
  free((((void*)_1175)));
  _1176 = fused_setErrorMessage(0, (&_OC_str_OC_9));
  *(void**)_1160 = ((void*)/*NULL*/0);
  goto _1219;

_1224:
  _1177 = *(void**)_1162;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_1177)->field1)))) = 0;
  _1178 = *(uint32_t*)_1161;
  _1179 = *(void**)_1162;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_1179)->field2)))) = _1178;
  _1180 = *(void**)_1162;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_1180)->field3)))) = 1;
  _1181 = *(void**)_1162;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_1181)->field4)))) = 0;
  _1182 = *(void**)_1162;
  *(void**)_1160 = _1182;
  goto _1226;

  do {     /* Syntactic loop '' to make GCC happy */
_1226:
  _1183 = *(uint32_t*)_1158;
  _1184 = *(uint32_t*)_1156;
  if ((((int32_t)_1183) < ((int32_t)_1184))) {
    goto _1227;
  } else {
    goto _1228;
  }

_1227:
  *(uint32_t*)_1159 = 0;
  goto _1229;

_1229:
  _1186 = *(uint32_t*)_1159;
  _1187 = *(uint32_t*)_1156;
  if ((((int32_t)_1186) < ((int32_t)_1187))) {
    goto _1230;
  } else {
    goto _1231;
  }

_1231:
  goto _1232;

_1232:
  _1196 = *(uint32_t*)_1158;
  *(uint32_t*)_1158 = (llvm_add_u32(_1196, 1));
  goto _1226;

  } while (1); /* end of syntactic loop '' */
_1228:
  _1185 = *(uint32_t*)_1157;
  llvm_cbe_struct_2e_target = llvm_ctor_struct_fused_return_createDynamicArray_processMatrix(0, ((void*)/*NULL*/0));
  llvm_cbe_struct_2e_target.field0 = _1185;
  llvm_cbe_struct_2e_bunker1 = llvm_cbe_struct_2e_target;
  llvm_cbe_struct_2e_bunker1.field1 = ((void*)/*NULL*/0);
  return llvm_cbe_struct_2e_bunker1;
_1230:
  _1188 = *(uint32_t*)_1158;
  _1189 = *(uint32_t*)_1159;
  if ((_1188 == _1189)) {
    goto _1233;
  } else {
    goto _1234;
  }

_1233:
  _1190 = *(void**)_1155;
  _1191 = *(uint32_t*)_1158;
  _1192 = *(uint32_t*)_1159;
  _1193 = *(uint32_t*)(((&((struct l_array_100_uint32_t*)(((&((struct l_array_100_uint32_t*)_1190)[((int64_t)(((int64_t)(int32_t)_1191)))]))))->array[((int64_t)(((int64_t)(int32_t)_1192)))])));
  if (((llvm_srem_u32(_1193, 2)) == 0u)) {
    goto _1235;
  } else {
    goto _1236;
  }

_1234:
  _1194 = *(uint32_t*)_1158;
  _1195 = *(uint32_t*)_1159;
  if ((((int32_t)_1194) < ((int32_t)_1195))) {
    goto _1237;
  } else {
    goto _1238;
  }

_1235:
  _1197 = *(void**)_1155;
  _1198 = *(uint32_t*)_1158;
  _1199 = *(uint32_t*)_1159;
  _1200 = *(uint32_t*)(((&((struct l_array_100_uint32_t*)(((&((struct l_array_100_uint32_t*)_1197)[((int64_t)(((int64_t)(int32_t)_1198)))]))))->array[((int64_t)(((int64_t)(int32_t)_1199)))])));
  _1201 = *(uint32_t*)_1157;
  *(uint32_t*)_1157 = (llvm_add_u32(_1201, _1200));
  goto _1239;

_1236:
  _1202 = *(void**)_1155;
  _1203 = *(uint32_t*)_1158;
  _1204 = *(uint32_t*)_1159;
  _1205 = *(uint32_t*)(((&((struct l_array_100_uint32_t*)(((&((struct l_array_100_uint32_t*)_1202)[((int64_t)(((int64_t)(int32_t)_1203)))]))))->array[((int64_t)(((int64_t)(int32_t)_1204)))])));
  _1206 = *(uint32_t*)_1157;
  *(uint32_t*)_1157 = (llvm_sub_u32(_1206, _1205));
  goto _1239;

_1237:
  _1207 = *(void**)_1155;
  _1208 = *(uint32_t*)_1158;
  _1209 = *(uint32_t*)_1159;
  _1210 = *(uint32_t*)(((&((struct l_array_100_uint32_t*)(((&((struct l_array_100_uint32_t*)_1207)[((int64_t)(((int64_t)(int32_t)_1208)))]))))->array[((int64_t)(((int64_t)(int32_t)_1209)))])));
  _1211 = fused_quickSort(1, ((void*)/*NULL*/0), 0, 0, ((void*)/*NULL*/0), _1210);
  _1212 = *(uint32_t*)_1157;
  *(uint32_t*)_1157 = (llvm_add_u32(_1212, _1211));
  goto _1238;

_1238:
  goto _1240;

_1239:
  goto _1240;

_1240:
  goto _1241;

_1241:
  _1213 = *(uint32_t*)_1159;
  *(uint32_t*)_1159 = (llvm_add_u32(_1213, 1));
  goto _1219;

_1219:
  _1214 = *(void**)_1160;
  llvm_cbe_struct_2e_bunker = llvm_ctor_struct_fused_return_createDynamicArray_processMatrix(0, /*UNDEF*/((void*)/*NULL*/0));
  llvm_cbe_struct_2e_bunker.field1 = _1214;
  return llvm_cbe_struct_2e_bunker;
}


uint32_t fused_setErrorMessage(bool _1242, void* _1243) {
  void* _1244;
  void* _1245;
  void* _1246;
  void* _1247;
  void* _1248;
  void* _1249;
  void* _1250;
  void* _1251;
  uint32_t _1252;
  void* _1253;
  void* _1254;
  void* _1255;
  void* _1256;
  uint32_t _1257;
  uint32_t _1258;
  void* _1259;
  struct l_struct_fused_return_createDynamicArray_processMatrix _1260;
  void* _1261;
  void* _1262;
  void* _1263;
  uint32_t _1264;
  struct l_struct_fused_return_projectA_main_memoizedFib _1265;
  uint32_t llvm_cbe_extracted_target_return1target_;
  uint32_t _1266;
  uint32_t _1267;
  void* _1268;
  void* _1269;
  void* _1270;
  void* _1271;
  void* _1272;
  uint32_t _1273;
  uint32_t _1274;
  uint32_t _1275;
  uint64_t _1276;
  uint32_t _1277;
  uint32_t _1278;
  struct l_struct_fused_return_projectA_main_memoizedFib _1279;
  uint32_t _1280;
  uint32_t _1281;
  uint32_t _1282;

  goto _1283;

_1283:
  _1244 = (void*) alloca(sizeof(struct l_array_14_uint8_t));
  _1245 = (void*) alloca(sizeof(struct l_array_8_uint32_t));
  _1246 = (void*) alloca(sizeof(uint32_t));
  _1247 = (void*) alloca(sizeof(uint32_t));
  _1248 = (void*) alloca(sizeof(struct l_array_100_struct_AC_l_array_100_uint32_t));
  _1249 = (void*) alloca(sizeof(uint32_t));
  _1250 = (void*) alloca(sizeof(uint32_t));
  _1251 = (void*) alloca(sizeof(uint32_t));
  _1252 = fused_removeDuplicates(1, ((void*)/*NULL*/0), 5);
  _1253 = memset((&cache), 255, 400);
  _1254 = memcpy((((void*)_1244)), (&__const_OC_projectB_main_OC_str), 14);
  _1255 = fused_createMatrix(1, 0, 0, (((&((struct l_array_14_uint8_t*)_1244)->array[((int64_t)0)]))));
  _1256 = memcpy((((void*)_1245)), (&__const_OC_projectB_main_OC_arr), 32);
  *(uint32_t*)_1246 = 8;
  _1257 = *(uint32_t*)_1246;
  _1258 = fused_performSimpleCalculations(1, (((&((struct l_array_8_uint32_t*)_1245)->array[((int64_t)0)]))), _1257);
  *(uint32_t*)_1247 = _1258;
  _1259 = memcpy((((void*)_1248)), (&__const_OC_projectB_main_OC_matrix), 40000);
  _1260 = fused_createDynamicArray(1, 0, (((&((struct l_array_100_struct_AC_l_array_100_uint32_t*)_1248)->array[((int64_t)0)]))), 3);
  *(uint32_t*)_1249 = ((_1260.field0));
  *(uint32_t*)_1250 = 0;
  goto _1284;

_1284:
  _1261 = (void*) alloca(sizeof(void*));
  *(void**)_1261 = _1243;
  _1262 = globalErrorMessage;
  if ((_1262 != ((void*)/*NULL*/0))) {
    goto _1285;
  } else {
    goto _1286;
  }

_1285:
  _1263 = globalErrorMessage;
  free(_1263);
  goto _1287;

_1287:
  _1264 = *(uint32_t*)_1250;
  _1265 = fused_projectA_main(1, _1264);
  llvm_cbe_extracted_target_return1target_ = (_1265.field0);
  _1266 = *(uint32_t*)_1250;
  *(uint32_t*)_1250 = (llvm_add_u32(_1266, 1));
  goto _1288;

_1288:
  _1267 = *(uint32_t*)_1250;
  goto _1286;

_1286:
  _1268 = *(void**)_1261;
  if ((_1268 != ((void*)/*NULL*/0))) {
    goto _1289;
  } else {
    goto _1290;
  }

_1289:
  _1269 = *(void**)_1261;
  _1270 = strdup(_1269);
  globalErrorMessage = _1270;
  _1271 = globalErrorMessage;
  if ((_1271 == ((void*)/*NULL*/0))) {
    goto _1291;
  } else {
    goto _1292;
  }

_1291:
  _1272 = stderr;
  _1273 = fprintf(_1272, (&_OC_str_OC_1));
  goto _1292;

_1292:
  goto _1293;

_1290:
  globalErrorMessage = ((void*)/*NULL*/0);
  goto _1294;

_1294:
  _1274 = *(uint32_t*)_1247;
  if ((((int32_t)_1274) > ((int32_t)5u))) {
    goto _1295;
  } else {
    goto _1296;
  }

_1295:
  _1275 = *(uint32_t*)_1249;
  if ((((int32_t)_1275) > ((int32_t)0u))) {
    goto _1297;
  } else {
    goto _1298;
  }

_1296:
  _1276 = strlen((((&((struct l_array_14_uint8_t*)_1244)->array[((int64_t)0)]))));
  _1277 = *(uint32_t*)_1249;
  *(uint32_t*)_1251 = (((uint32_t)(llvm_add_u64(_1276, (((int64_t)(int32_t)_1277))))));
  goto _1299;

_1297:
  _1278 = *(uint32_t*)_1247;
  _1279 = fused_projectA_main(1, _1278);
  *(uint32_t*)_1251 = ((_1279.field0));
  goto _1300;

_1298:
  _1280 = *(uint32_t*)_1249;
  _1281 = fused_quickSort(1, ((void*)/*NULL*/0), 0, 0, ((void*)/*NULL*/0), _1280);
  *(uint32_t*)_1251 = _1281;
  goto _1300;

_1299:
  _1282 = *(uint32_t*)_1251;
  return _1282;
_1300:
  goto _1293;

_1293:
  return 0;
}


void* fused_createMatrix(bool _1301, uint32_t _1302, uint32_t _1303, void* _1304) {
  void* _1305;
  void* _1306;
  void* _1307;
  void* _1308;
  void* _1309;
  uint64_t _1310;
  void* _1311;
  void* _1312;
  void* _1313;
  void* _1314;
  void* _1315;
  void* _1316;
  uint32_t _1317;
  uint32_t _1318;
  uint32_t _1319;
  uint32_t _1320;
  uint32_t _1321;
  uint32_t _1322;
  void* _1323;
  void* _1324;
  uint32_t _1325;
  uint32_t _1326;
  void* _1327;
  uint32_t _1328;
  void* _1329;
  uint32_t _1330;
  uint32_t _1331;
  void* _1332;
  void* _1333;
  uint32_t _1334;
  void* _1335;
  void* _1336;
  void* _1337;
  void* _1338;
  void* _1339;
  uint32_t _1340;
  uint32_t _1341;
  uint32_t _1342;
  uint32_t _1343;
  void* _1344;
  void* _1345;
  void* _1346;
  uint32_t _1347;
  void* _1348;
  void* _1349;
  uint32_t _1350;
  void* _1351;
  uint32_t _1352;
  uint32_t _1353;
  void* _1354;
  void* _1355;
  uint32_t _1356;
  void* _1357;
  uint32_t _1358;
  void* _1359;
  void* _1360;
  void* _1361;
  uint32_t _1362;
  uint32_t _1363;
  void* _1364;
  uint32_t _1365;
  uint32_t _1366;
  void* _1367;
  uint32_t _1368;
  uint8_t _1369;
  void* _1370;
  uint32_t _1371;
  uint32_t _1372;
  uint8_t _1373;
  void* _1374;
  uint32_t _1375;
  uint8_t _1376;
  void* _1377;
  uint32_t _1378;
  uint32_t _1379;
  uint32_t _1380;
  void* _1381;

  goto _1382;

_1382:
  _1305 = (void*) alloca(sizeof(void*));
  _1306 = (void*) alloca(sizeof(uint32_t));
  _1307 = (void*) alloca(sizeof(uint32_t));
  _1308 = (void*) alloca(sizeof(uint8_t));
  *(void**)_1305 = _1304;
  _1309 = *(void**)_1305;
  _1310 = strlen(_1309);
  *(uint32_t*)_1306 = (((uint32_t)_1310));
  *(uint32_t*)_1307 = 0;
  goto _1383;

_1383:
  _1311 = (void*) alloca(sizeof(void*));
  _1312 = (void*) alloca(sizeof(uint32_t));
  _1313 = (void*) alloca(sizeof(uint32_t));
  _1314 = (void*) alloca(sizeof(void*));
  _1315 = (void*) alloca(sizeof(uint32_t));
  _1316 = (void*) alloca(sizeof(uint32_t));
  *(uint32_t*)_1312 = _1302;
  *(uint32_t*)_1313 = _1303;
  _1317 = *(uint32_t*)_1312;
  if ((((int32_t)_1317) < ((int32_t)1u))) {
    goto _1384;
  } else {
    goto _1385;
  }

_1385:
  _1318 = *(uint32_t*)_1313;
  if ((((int32_t)_1318) < ((int32_t)1u))) {
    goto _1384;
  } else {
    goto _1386;
  }

_1384:
  _1319 = fused_setErrorMessage(0, (&_OC_str_OC_16));
  *(void**)_1311 = ((void*)/*NULL*/0);
  goto _1387;

_1386:
  _1320 = *(uint32_t*)_1312;
  if ((((int32_t)_1320) > ((int32_t)100u))) {
    goto _1388;
  } else {
    goto _1389;
  }

_1389:
  _1321 = *(uint32_t*)_1313;
  if ((((int32_t)_1321) > ((int32_t)100u))) {
    goto _1388;
  } else {
    goto _1390;
  }

_1388:
  _1322 = fused_setErrorMessage(0, (&_OC_str_OC_17));
  *(void**)_1311 = ((void*)/*NULL*/0);
  goto _1387;

_1390:
  _1323 = malloc(32);
  *(void**)_1314 = (((void*)_1323));
  _1324 = *(void**)_1314;
  if ((_1324 != ((void*)/*NULL*/0))) {
    goto _1391;
  } else {
    goto _1392;
  }

_1392:
  _1325 = fused_setErrorMessage(0, (&_OC_str_OC_18));
  *(void**)_1311 = ((void*)/*NULL*/0);
  goto _1387;

_1391:
  _1326 = *(uint32_t*)_1312;
  _1327 = *(void**)_1314;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_1327)->field1)))) = _1326;
  _1328 = *(uint32_t*)_1313;
  _1329 = *(void**)_1314;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_1329)->field2)))) = _1328;
  _1330 = *(uint32_t*)_1312;
  _1331 = *(uint32_t*)_1313;
  _1332 = *(void**)_1314;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_Matrix*)_1332)->field3)))) = (((uint32_t)(bool)(_1330 == _1331)));
  _1333 = *(void**)_1314;
  *(double*)(((&(((struct l_struct_struct_OC_Matrix*)_1333)->field4)))) = 0;
  _1334 = *(uint32_t*)_1312;
  _1335 = malloc((llvm_mul_u64((((int64_t)(int32_t)_1334)), 8)));
  _1336 = *(void**)_1314;
  *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_1336)->field0)))) = (((void*)_1335));
  _1337 = *(void**)_1314;
  _1338 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_1337)->field0))));
  if ((_1338 != ((void*)/*NULL*/0))) {
    goto _1393;
  } else {
    goto _1394;
  }

_1394:
  _1339 = *(void**)_1314;
  free((((void*)_1339)));
  _1340 = fused_setErrorMessage(0, (&_OC_str_OC_19));
  *(void**)_1311 = ((void*)/*NULL*/0);
  goto _1387;

_1393:
  *(uint32_t*)_1315 = 0;
  goto _1395;

  do {     /* Syntactic loop '' to make GCC happy */
_1395:
  _1341 = *(uint32_t*)_1315;
  _1342 = *(uint32_t*)_1312;
  if ((((int32_t)_1341) < ((int32_t)_1342))) {
    goto _1396;
  } else {
    goto _1397;
  }

_1396:
  _1343 = *(uint32_t*)_1313;
  _1344 = calloc((((int64_t)(int32_t)_1343)), 4);
  _1345 = *(void**)_1314;
  _1346 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_1345)->field0))));
  _1347 = *(uint32_t*)_1315;
  *(void**)(((&((void**)_1346)[((int64_t)(((int64_t)(int32_t)_1347)))]))) = (((void*)_1344));
  _1348 = *(void**)_1314;
  _1349 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_1348)->field0))));
  _1350 = *(uint32_t*)_1315;
  _1351 = *(void**)(((&((void**)_1349)[((int64_t)(((int64_t)(int32_t)_1350)))])));
  if ((_1351 != ((void*)/*NULL*/0))) {
    goto _1398;
  } else {
    goto _1399;
  }

_1398:
  goto _1400;

_1400:
  _1363 = *(uint32_t*)_1315;
  *(uint32_t*)_1315 = (llvm_add_u32(_1363, 1));
  goto _1395;

  } while (1); /* end of syntactic loop '' */
_1399:
  *(uint32_t*)_1316 = 0;
  goto _1401;

  do {     /* Syntactic loop '' to make GCC happy */
_1401:
  _1352 = *(uint32_t*)_1316;
  _1353 = *(uint32_t*)_1315;
  if ((((int32_t)_1352) < ((int32_t)_1353))) {
    goto _1402;
  } else {
    goto _1403;
  }

_1402:
  _1354 = *(void**)_1314;
  _1355 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_1354)->field0))));
  _1356 = *(uint32_t*)_1316;
  _1357 = *(void**)(((&((void**)_1355)[((int64_t)(((int64_t)(int32_t)_1356)))])));
  free((((void*)_1357)));
  goto _1404;

_1404:
  _1358 = *(uint32_t*)_1316;
  *(uint32_t*)_1316 = (llvm_add_u32(_1358, 1));
  goto _1401;

  } while (1); /* end of syntactic loop '' */
_1403:
  _1359 = *(void**)_1314;
  _1360 = *(void**)(((&(((struct l_struct_struct_OC_Matrix*)_1359)->field0))));
  free((((void*)_1360)));
  _1361 = *(void**)_1314;
  free((((void*)_1361)));
  _1362 = fused_setErrorMessage(0, (&_OC_str_OC_20));
  *(void**)_1311 = ((void*)/*NULL*/0);
  goto _1387;

_1397:
  _1364 = *(void**)_1314;
  *(void**)_1311 = _1364;
  goto _1405;

_1405:
  _1365 = *(uint32_t*)_1307;
  _1366 = *(uint32_t*)_1306;
  if ((((int32_t)_1365) < ((int32_t)(llvm_sdiv_u32(_1366, 2))))) {
    goto _1406;
  } else {
    goto _1407;
  }

_1406:
  _1367 = *(void**)_1305;
  _1368 = *(uint32_t*)_1307;
  _1369 = *(uint8_t*)(((&((uint8_t*)_1367)[((int64_t)(((int64_t)(int32_t)_1368)))])));
  *(uint8_t*)_1308 = _1369;
  _1370 = *(void**)_1305;
  _1371 = *(uint32_t*)_1306;
  _1372 = *(uint32_t*)_1307;
  _1373 = *(uint8_t*)(((&((uint8_t*)_1370)[((int64_t)(((int64_t)(int32_t)(llvm_sub_u32((llvm_sub_u32(_1371, 1)), _1372)))))])));
  _1374 = *(void**)_1305;
  _1375 = *(uint32_t*)_1307;
  *(uint8_t*)(((&((uint8_t*)_1374)[((int64_t)(((int64_t)(int32_t)_1375)))]))) = _1373;
  _1376 = *(uint8_t*)_1308;
  _1377 = *(void**)_1305;
  _1378 = *(uint32_t*)_1306;
  _1379 = *(uint32_t*)_1307;
  *(uint8_t*)(((&((uint8_t*)_1377)[((int64_t)(((int64_t)(int32_t)(llvm_sub_u32((llvm_sub_u32(_1378, 1)), _1379)))))]))) = _1376;
  goto _1408;

_1407:
  return ((void*)/*NULL*/0);
_1408:
  _1380 = *(uint32_t*)_1307;
  *(uint32_t*)_1307 = (llvm_add_u32(_1380, 1));
  goto _1387;

_1387:
  _1381 = *(void**)_1311;
  return _1381;
}


uint32_t fused_removeDuplicates(bool _1409, void* _1410, uint32_t _1411) {
  void* _1412;
  void* _1413;
  void* _1414;
  void* _1415;
  void* _1416;
  void* _1417;
  void* _1418;
  void* _1419;
  void* _1420;
  void* _1421;
  void* _1422;
  uint32_t _1423;
  void* _1424;
  uint32_t _1425;
  void* _1426;
  void* _1427;
  void* _1428;
  uint32_t _1429;
  uint32_t _1430;
  uint32_t _1431;
  uint32_t _1432;
  void* _1433;
  uint32_t _1434;
  void* _1435;
  void* _1436;
  uint32_t _1437;
  uint32_t _1438;
  void* _1439;
  void* _1440;
  uint32_t _1441;
  uint32_t _1442;
  void* _1443;
  void* _1444;
  uint32_t _1445;
  uint32_t _1446;
  void* _1447;
  void* _1448;
  uint32_t _1449;
  uint32_t _1450;
  uint32_t _1451;
  uint32_t _1452;
  void* _1453;
  void* _1454;
  uint32_t _1455;
  uint32_t _1456;
  uint32_t _1457;
  uint32_t _1458;
  uint32_t _1459;
  uint32_t _1460;

  goto _1461;

_1461:
  _1412 = (void*) alloca(sizeof(uint32_t));
  _1413 = (void*) alloca(sizeof(uint32_t));
  _1414 = (void*) alloca(sizeof(uint32_t));
  _1415 = (void*) alloca(sizeof(uint32_t));
  *(uint32_t*)_1413 = _1411;
  *(uint32_t*)_1414 = 0;
  *(uint32_t*)_1415 = 1;
  goto _1462;

_1462:
  _1416 = (void*) alloca(sizeof(void*));
  _1417 = (void*) alloca(sizeof(uint32_t));
  _1418 = (void*) alloca(sizeof(uint32_t));
  _1419 = (void*) alloca(sizeof(uint32_t));
  *(void**)_1416 = _1410;
  _1420 = *(void**)_1416;
  if ((_1420 != ((void*)/*NULL*/0))) {
    goto _1463;
  } else {
    goto _1464;
  }

_1463:
  _1421 = *(void**)_1416;
  _1422 = *(void**)(((&(((struct l_struct_struct_OC_DynamicArray*)_1421)->field0))));
  if ((_1422 != ((void*)/*NULL*/0))) {
    goto _1465;
  } else {
    goto _1464;
  }

_1464:
  _1423 = fused_setErrorMessage(0, (&_OC_str_OC_49));
  goto _1466;

_1465:
  _1424 = *(void**)_1416;
  _1425 = *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_1424)->field1))));
  if ((((int32_t)_1425) <= ((int32_t)1u))) {
    goto _1467;
  } else {
    goto _1468;
  }

_1467:
  goto _1466;

_1468:
  *(uint32_t*)_1417 = 0;
  _1426 = *(void**)_1416;
  _1427 = *(void**)(((&(((struct l_struct_struct_OC_DynamicArray*)_1426)->field0))));
  _1428 = *(void**)_1416;
  _1429 = *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_1428)->field1))));
  _1430 = fused_quickSort(0, _1427, 0, (llvm_sub_u32(_1429, 1)), _1417, 0);
  _1431 = *(uint32_t*)_1417;
  if ((_1431 != 0u)) {
    goto _1469;
  } else {
    goto _1470;
  }

_1469:
  goto _1466;

_1470:
  *(uint32_t*)_1418 = 1;
  *(uint32_t*)_1419 = 1;
  goto _1471;

  do {     /* Syntactic loop '' to make GCC happy */
_1471:
  _1432 = *(uint32_t*)_1419;
  _1433 = *(void**)_1416;
  _1434 = *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_1433)->field1))));
  if ((((int32_t)_1432) < ((int32_t)_1434))) {
    goto _1472;
  } else {
    goto _1473;
  }

_1472:
  _1435 = *(void**)_1416;
  _1436 = *(void**)(((&(((struct l_struct_struct_OC_DynamicArray*)_1435)->field0))));
  _1437 = *(uint32_t*)_1419;
  _1438 = *(uint32_t*)(((&((uint32_t*)_1436)[((int64_t)(((int64_t)(int32_t)_1437)))])));
  _1439 = *(void**)_1416;
  _1440 = *(void**)(((&(((struct l_struct_struct_OC_DynamicArray*)_1439)->field0))));
  _1441 = *(uint32_t*)_1419;
  _1442 = *(uint32_t*)(((&((uint32_t*)_1440)[((int64_t)(((int64_t)(int32_t)(llvm_sub_u32(_1441, 1)))))])));
  if ((_1438 != _1442)) {
    goto _1474;
  } else {
    goto _1475;
  }

_1474:
  _1443 = *(void**)_1416;
  _1444 = *(void**)(((&(((struct l_struct_struct_OC_DynamicArray*)_1443)->field0))));
  _1445 = *(uint32_t*)_1419;
  _1446 = *(uint32_t*)(((&((uint32_t*)_1444)[((int64_t)(((int64_t)(int32_t)_1445)))])));
  _1447 = *(void**)_1416;
  _1448 = *(void**)(((&(((struct l_struct_struct_OC_DynamicArray*)_1447)->field0))));
  _1449 = *(uint32_t*)_1418;
  *(uint32_t*)(((&((uint32_t*)_1448)[((int64_t)(((int64_t)(int32_t)_1449)))]))) = _1446;
  _1450 = *(uint32_t*)_1418;
  *(uint32_t*)_1418 = (llvm_add_u32(_1450, 1));
  goto _1475;

_1475:
  goto _1476;

_1476:
  _1451 = *(uint32_t*)_1419;
  *(uint32_t*)_1419 = (llvm_add_u32(_1451, 1));
  goto _1471;

  } while (1); /* end of syntactic loop '' */
_1473:
  _1452 = *(uint32_t*)_1418;
  _1453 = *(void**)_1416;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_1453)->field1)))) = _1452;
  _1454 = *(void**)_1416;
  *(uint32_t*)(((&(((struct l_struct_struct_OC_DynamicArray*)_1454)->field3)))) = 1;
  goto _1477;

_1477:
  _1455 = *(uint32_t*)_1415;
  if ((((int32_t)_1455) < ((int32_t)5u))) {
    goto _1478;
  } else {
    goto _1479;
  }

_1478:
  _1456 = *(uint32_t*)_1414;
  *(uint32_t*)_1414 = (llvm_add_u32(_1456, 1));
  _1457 = *(uint32_t*)_1413;
  if ((((int32_t)_1457) > ((int32_t)2u))) {
    goto _1480;
  } else {
    goto _1481;
  }

_1479:
  _1458 = *(uint32_t*)_1414;
  *(uint32_t*)_1412 = _1458;
  goto _1482;

_1480:
  *(uint32_t*)_1412 = 23;
  goto _1482;

_1481:
  goto _1483;

_1482:
  _1459 = *(uint32_t*)_1412;
  return _1459;
_1483:
  _1460 = *(uint32_t*)_1415;
  *(uint32_t*)_1415 = (llvm_add_u32(_1460, 1));
  goto _1466;

_1466:
  return 0;
}