test/example/relooper-fuzz1.c - external/github.com/WebAssembly/binaryen - Git at Google



 #include <assert.h>
 #include <stdio.h>

 #include "binaryen-c.h"

 // globals: address 4 is index
 // decisions are at address 8+

 int main() {
   BinaryenModuleRef module = BinaryenModuleCreate();

   // check()

   // if the end, halt
   BinaryenExpressionRef halter = BinaryenIf(module,
     BinaryenBinary(module,
       BinaryenEqInt32(),
       BinaryenLoad(module, 4, 0, 0, 0, BinaryenInt32(),
                    BinaryenConst(module, BinaryenLiteralInt32(4))),
       BinaryenConst(module, BinaryenLiteralInt32(4 * 30)) // jumps of 4 bytes
     ),
     BinaryenUnreachable(module),
     NULL
   );
   // increment index
   BinaryenExpressionRef incer = BinaryenStore(module,
     4, 0, 0,
     BinaryenConst(module, BinaryenLiteralInt32(4)),
     BinaryenBinary(module,
       BinaryenAddInt32(),
       BinaryenLoad(module, 4, 0, 0, 0, BinaryenInt32(),
                    BinaryenConst(module, BinaryenLiteralInt32(4))),
       BinaryenConst(module, BinaryenLiteralInt32(4))
     ),
     BinaryenInt32()
   );

   // optionally, print the return value
   BinaryenExpressionRef args[] = {
     BinaryenBinary(module,
       BinaryenSubInt32(),
       BinaryenConst(module, BinaryenLiteralInt32(0)),
       BinaryenLoad(module,
         4, 0, 4, 0, BinaryenInt32(),
         BinaryenLoad(module, 4, 0, 0, 0, BinaryenInt32(),
                      BinaryenConst(module, BinaryenLiteralInt32(4)))
       )
     )
   };
   BinaryenExpressionRef debugger;
   if (1) debugger = BinaryenCallImport(module, "print", args, 1,
                                        BinaryenNone());
   else debugger = BinaryenNop(module);

   // return the decision. need to subtract 4 that we just added,
   // and add 8 since that's where we start, so overall offset 4
   BinaryenExpressionRef returner = BinaryenLoad(module,
     4, 0, 4, 0, BinaryenInt32(),
     BinaryenLoad(module, 4, 0, 0, 0, BinaryenInt32(),
     BinaryenConst(module, BinaryenLiteralInt32(4)))
   );
   BinaryenExpressionRef checkBodyList[] = { halter, incer, debugger,
                                             returner };
   BinaryenExpressionRef checkBody = BinaryenBlock(module,
     NULL, checkBodyList, sizeof(checkBodyList) / sizeof(BinaryenExpressionRef)
   );
   BinaryenFunctionTypeRef i = BinaryenAddFunctionType(module, "i",
                                                       BinaryenInt32(),
                                                       NULL, 0);
   BinaryenAddFunction(module, "check", i, NULL, 0, checkBody);

   // contents of main() begin here

   RelooperRef relooper = RelooperCreate();


   RelooperBlockRef b0;
   {
     BinaryenExpressionRef args[] = {
       BinaryenConst(module, BinaryenLiteralInt32(0))
     };
     BinaryenExpressionRef list[] = {
       BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
       BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
                                                BinaryenInt32()))
     };

     b0 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

   }

   RelooperBlockRef b1;
   {
     BinaryenExpressionRef args[] = {
       BinaryenConst(module, BinaryenLiteralInt32(1))
     };
     BinaryenExpressionRef list[] = {
       BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
       BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
                                                BinaryenInt32()))
     };

     b1 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

   }

   RelooperBlockRef b2;
   {
     BinaryenExpressionRef args[] = {
       BinaryenConst(module, BinaryenLiteralInt32(2))
     };
     BinaryenExpressionRef list[] = {
       BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
       BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
                                                BinaryenInt32()))
     };

     b2 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

   }

   RelooperBlockRef b3;
   {
     BinaryenExpressionRef args[] = {
       BinaryenConst(module, BinaryenLiteralInt32(3))
     };
     BinaryenExpressionRef list[] = {
       BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
       BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
                                                BinaryenInt32()))
     };

     b3 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

   }

   RelooperBlockRef b4;
   {
     BinaryenExpressionRef args[] = {
       BinaryenConst(module, BinaryenLiteralInt32(4))
     };
     BinaryenExpressionRef list[] = {
       BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
       BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
                                                BinaryenInt32()))
     };

     b4 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

   }

   RelooperBlockRef b5;
   {
     BinaryenExpressionRef args[] = {
       BinaryenConst(module, BinaryenLiteralInt32(5))
     };
     BinaryenExpressionRef list[] = {
       BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
       BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
                                                BinaryenInt32()))
     };

     b5 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

   }

   RelooperBlockRef b6;
   {
     BinaryenExpressionRef args[] = {
       BinaryenConst(module, BinaryenLiteralInt32(6))
     };
     BinaryenExpressionRef list[] = {
       BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
       BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
                                                BinaryenInt32()))
     };

     b6 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

   }

   RelooperBlockRef b7;
   {
     BinaryenExpressionRef args[] = {
       BinaryenConst(module, BinaryenLiteralInt32(7))
     };
     BinaryenExpressionRef list[] = {
       BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
       BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
                                                BinaryenInt32()))
     };

     b7 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

   }

   RelooperBlockRef b8;
   {
     BinaryenExpressionRef args[] = {
       BinaryenConst(module, BinaryenLiteralInt32(8))
     };
     BinaryenExpressionRef list[] = {
       BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
       BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
                                                BinaryenInt32()))
     };

     b8 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

   }

   RelooperBlockRef b9;
   {
     BinaryenExpressionRef args[] = {
       BinaryenConst(module, BinaryenLiteralInt32(9))
     };
     BinaryenExpressionRef list[] = {
       BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
       BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
                                                BinaryenInt32()))
     };

     b9 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

   }

   RelooperAddBranch(b0, b2, BinaryenBinary(module,
     BinaryenEqInt32(),
     BinaryenBinary(module,
       BinaryenRemUInt32(),
       BinaryenGetLocal(module, 0, BinaryenInt32()),
       BinaryenConst(module, BinaryenLiteralInt32(4))
     ),
     BinaryenConst(module, BinaryenLiteralInt32(0))
   ), NULL);

   RelooperAddBranch(b0, b7, BinaryenBinary(module,
     BinaryenEqInt32(),
     BinaryenBinary(module,
       BinaryenRemUInt32(),
       BinaryenGetLocal(module, 0, BinaryenInt32()),
       BinaryenConst(module, BinaryenLiteralInt32(4))
     ),
     BinaryenConst(module, BinaryenLiteralInt32(2))
   ), NULL);

   RelooperAddBranch(b0, b3, NULL, NULL);

   RelooperAddBranch(b2, b3, BinaryenBinary(module,
     BinaryenEqInt32(),
     BinaryenBinary(module,
       BinaryenRemUInt32(),
       BinaryenGetLocal(module, 0, BinaryenInt32()),
       BinaryenConst(module, BinaryenLiteralInt32(2))
     ),
     BinaryenConst(module, BinaryenLiteralInt32(0))
   ), NULL);

   RelooperAddBranch(b2, b9, NULL, NULL);

   RelooperAddBranch(b3, b3, NULL, NULL);

   RelooperAddBranch(b7, b2, BinaryenBinary(module,
     BinaryenEqInt32(),
     BinaryenBinary(module,
       BinaryenRemUInt32(),
       BinaryenGetLocal(module, 0, BinaryenInt32()),
       BinaryenConst(module, BinaryenLiteralInt32(3))
     ),
     BinaryenConst(module, BinaryenLiteralInt32(0))
   ), NULL);

   RelooperAddBranch(b7, b9, NULL, NULL);

   BinaryenExpressionRef body = RelooperRenderAndDispose(relooper, b0, 1,
                                                         module);

   int decisions[] = { 67, 131, 49, 36, 112, 161, 62, 166, 16, 88, 176, 152, 161, 194, 117, 180, 60, 166, 55, 183, 150, 73, 196, 143, 76, 182, 97, 140, 126, 3 };
   int numDecisions = sizeof(decisions)/sizeof(int);

   // write out all the decisions, then the body of the function
   BinaryenExpressionRef full[numDecisions + 1];

   {
     int i;
     for (i = 0; i < numDecisions; i++) {
       full[i] = BinaryenStore(module,
         4, 0, 0,
         BinaryenConst(module, BinaryenLiteralInt32(8 + 4 * i)),
         BinaryenConst(module, BinaryenLiteralInt32(decisions[i])),
         BinaryenInt32()
       );
     }
   }
   full[numDecisions] = body;
   BinaryenExpressionRef all = BinaryenBlock(module, NULL, full,
                                             numDecisions + 1);

   BinaryenFunctionTypeRef v = BinaryenAddFunctionType(module, "v",
                                                       BinaryenNone(),
                                                       NULL, 0);
   // locals: state, free-for-label
   BinaryenType localTypes[] = { BinaryenInt32(), BinaryenInt32() };
   BinaryenFunctionRef theMain = BinaryenAddFunction(module, "main", v,
                                                     localTypes, 2, all);
   BinaryenSetStart(module, theMain);

   // import

   BinaryenType iparams[] = { BinaryenInt32() };
   BinaryenFunctionTypeRef vi = BinaryenAddFunctionType(module, "vi",
                                                        BinaryenNone(),
                                                        iparams, 1);
   BinaryenAddImport(module, "print", "spectest", "print", vi);

   // memory
   BinaryenSetMemory(module, 1, 1, "mem", NULL, NULL, NULL, 0);

   assert(BinaryenModuleValidate(module));

   BinaryenModulePrint(module);

   BinaryenModuleOptimize(module);

   assert(BinaryenModuleValidate(module));

   BinaryenModulePrint(module);

   BinaryenModuleDispose(module);

   return 0;
 }


	#include <assert.h>
	#include <stdio.h>

	#include "binaryen-c.h"

	// globals: address 4 is index
	// decisions are at address 8+

	int main() {
	BinaryenModuleRef module = BinaryenModuleCreate();

	// check()

	// if the end, halt
	BinaryenExpressionRef halter = BinaryenIf(module,
	BinaryenBinary(module,
	BinaryenEqInt32(),
	BinaryenLoad(module, 4, 0, 0, 0, BinaryenInt32(),
	BinaryenConst(module, BinaryenLiteralInt32(4))),
	BinaryenConst(module, BinaryenLiteralInt32(4 * 30)) // jumps of 4 bytes
	),
	BinaryenUnreachable(module),
	NULL
	);
	// increment index
	BinaryenExpressionRef incer = BinaryenStore(module,
	4, 0, 0,
	BinaryenConst(module, BinaryenLiteralInt32(4)),
	BinaryenBinary(module,
	BinaryenAddInt32(),
	BinaryenLoad(module, 4, 0, 0, 0, BinaryenInt32(),
	BinaryenConst(module, BinaryenLiteralInt32(4))),
	BinaryenConst(module, BinaryenLiteralInt32(4))
	),
	BinaryenInt32()
	);

	// optionally, print the return value
	BinaryenExpressionRef args[] = {
	BinaryenBinary(module,
	BinaryenSubInt32(),
	BinaryenConst(module, BinaryenLiteralInt32(0)),
	BinaryenLoad(module,
	4, 0, 4, 0, BinaryenInt32(),
	BinaryenLoad(module, 4, 0, 0, 0, BinaryenInt32(),
	BinaryenConst(module, BinaryenLiteralInt32(4)))
	)
	)
	};
	BinaryenExpressionRef debugger;
	if (1) debugger = BinaryenCallImport(module, "print", args, 1,
	BinaryenNone());
	else debugger = BinaryenNop(module);

	// return the decision. need to subtract 4 that we just added,
	// and add 8 since that's where we start, so overall offset 4
	BinaryenExpressionRef returner = BinaryenLoad(module,
	4, 0, 4, 0, BinaryenInt32(),
	BinaryenLoad(module, 4, 0, 0, 0, BinaryenInt32(),
	BinaryenConst(module, BinaryenLiteralInt32(4)))
	);
	BinaryenExpressionRef checkBodyList[] = { halter, incer, debugger,
	returner };
	BinaryenExpressionRef checkBody = BinaryenBlock(module,
	NULL, checkBodyList, sizeof(checkBodyList) / sizeof(BinaryenExpressionRef)
	);
	BinaryenFunctionTypeRef i = BinaryenAddFunctionType(module, "i",
	BinaryenInt32(),
	NULL, 0);
	BinaryenAddFunction(module, "check", i, NULL, 0, checkBody);

	// contents of main() begin here

	RelooperRef relooper = RelooperCreate();


	RelooperBlockRef b0;
	{
	BinaryenExpressionRef args[] = {
	BinaryenConst(module, BinaryenLiteralInt32(0))
	};
	BinaryenExpressionRef list[] = {
	BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
	BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
	BinaryenInt32()))
	};

	b0 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

	}

	RelooperBlockRef b1;
	{
	BinaryenExpressionRef args[] = {
	BinaryenConst(module, BinaryenLiteralInt32(1))
	};
	BinaryenExpressionRef list[] = {
	BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
	BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
	BinaryenInt32()))
	};

	b1 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

	}

	RelooperBlockRef b2;
	{
	BinaryenExpressionRef args[] = {
	BinaryenConst(module, BinaryenLiteralInt32(2))
	};
	BinaryenExpressionRef list[] = {
	BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
	BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
	BinaryenInt32()))
	};

	b2 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

	}

	RelooperBlockRef b3;
	{
	BinaryenExpressionRef args[] = {
	BinaryenConst(module, BinaryenLiteralInt32(3))
	};
	BinaryenExpressionRef list[] = {
	BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
	BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
	BinaryenInt32()))
	};

	b3 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

	}

	RelooperBlockRef b4;
	{
	BinaryenExpressionRef args[] = {
	BinaryenConst(module, BinaryenLiteralInt32(4))
	};
	BinaryenExpressionRef list[] = {
	BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
	BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
	BinaryenInt32()))
	};

	b4 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

	}

	RelooperBlockRef b5;
	{
	BinaryenExpressionRef args[] = {
	BinaryenConst(module, BinaryenLiteralInt32(5))
	};
	BinaryenExpressionRef list[] = {
	BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
	BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
	BinaryenInt32()))
	};

	b5 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

	}

	RelooperBlockRef b6;
	{
	BinaryenExpressionRef args[] = {
	BinaryenConst(module, BinaryenLiteralInt32(6))
	};
	BinaryenExpressionRef list[] = {
	BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
	BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
	BinaryenInt32()))
	};

	b6 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

	}

	RelooperBlockRef b7;
	{
	BinaryenExpressionRef args[] = {
	BinaryenConst(module, BinaryenLiteralInt32(7))
	};
	BinaryenExpressionRef list[] = {
	BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
	BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
	BinaryenInt32()))
	};

	b7 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

	}

	RelooperBlockRef b8;
	{
	BinaryenExpressionRef args[] = {
	BinaryenConst(module, BinaryenLiteralInt32(8))
	};
	BinaryenExpressionRef list[] = {
	BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
	BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
	BinaryenInt32()))
	};

	b8 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

	}

	RelooperBlockRef b9;
	{
	BinaryenExpressionRef args[] = {
	BinaryenConst(module, BinaryenLiteralInt32(9))
	};
	BinaryenExpressionRef list[] = {
	BinaryenCallImport(module, "print", args, 1, BinaryenNone()),
	BinaryenSetLocal(module, 0, BinaryenCall(module, "check", NULL, 0,
	BinaryenInt32()))
	};

	b9 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2));

	}

	RelooperAddBranch(b0, b2, BinaryenBinary(module,
	BinaryenEqInt32(),
	BinaryenBinary(module,
	BinaryenRemUInt32(),
	BinaryenGetLocal(module, 0, BinaryenInt32()),
	BinaryenConst(module, BinaryenLiteralInt32(4))
	),
	BinaryenConst(module, BinaryenLiteralInt32(0))
	), NULL);

	RelooperAddBranch(b0, b7, BinaryenBinary(module,
	BinaryenEqInt32(),
	BinaryenBinary(module,
	BinaryenRemUInt32(),
	BinaryenGetLocal(module, 0, BinaryenInt32()),
	BinaryenConst(module, BinaryenLiteralInt32(4))
	),
	BinaryenConst(module, BinaryenLiteralInt32(2))
	), NULL);

	RelooperAddBranch(b0, b3, NULL, NULL);

	RelooperAddBranch(b2, b3, BinaryenBinary(module,
	BinaryenEqInt32(),
	BinaryenBinary(module,
	BinaryenRemUInt32(),
	BinaryenGetLocal(module, 0, BinaryenInt32()),
	BinaryenConst(module, BinaryenLiteralInt32(2))
	),
	BinaryenConst(module, BinaryenLiteralInt32(0))
	), NULL);

	RelooperAddBranch(b2, b9, NULL, NULL);

	RelooperAddBranch(b3, b3, NULL, NULL);

	RelooperAddBranch(b7, b2, BinaryenBinary(module,
	BinaryenEqInt32(),
	BinaryenBinary(module,
	BinaryenRemUInt32(),
	BinaryenGetLocal(module, 0, BinaryenInt32()),
	BinaryenConst(module, BinaryenLiteralInt32(3))
	),
	BinaryenConst(module, BinaryenLiteralInt32(0))
	), NULL);

	RelooperAddBranch(b7, b9, NULL, NULL);

	BinaryenExpressionRef body = RelooperRenderAndDispose(relooper, b0, 1,
	module);

	int decisions[] = { 67, 131, 49, 36, 112, 161, 62, 166, 16, 88, 176, 152, 161, 194, 117, 180, 60, 166, 55, 183, 150, 73, 196, 143, 76, 182, 97, 140, 126, 3 };
	int numDecisions = sizeof(decisions)/sizeof(int);

	// write out all the decisions, then the body of the function
	BinaryenExpressionRef full[numDecisions + 1];

	{
	int i;
	for (i = 0; i < numDecisions; i++) {
	full[i] = BinaryenStore(module,
	4, 0, 0,
	BinaryenConst(module, BinaryenLiteralInt32(8 + 4 * i)),
	BinaryenConst(module, BinaryenLiteralInt32(decisions[i])),
	BinaryenInt32()
	);
	}
	}
	full[numDecisions] = body;
	BinaryenExpressionRef all = BinaryenBlock(module, NULL, full,
	numDecisions + 1);

	BinaryenFunctionTypeRef v = BinaryenAddFunctionType(module, "v",
	BinaryenNone(),
	NULL, 0);
	// locals: state, free-for-label
	BinaryenType localTypes[] = { BinaryenInt32(), BinaryenInt32() };
	BinaryenFunctionRef theMain = BinaryenAddFunction(module, "main", v,
	localTypes, 2, all);
	BinaryenSetStart(module, theMain);

	// import

	BinaryenType iparams[] = { BinaryenInt32() };
	BinaryenFunctionTypeRef vi = BinaryenAddFunctionType(module, "vi",
	BinaryenNone(),
	iparams, 1);
	BinaryenAddImport(module, "print", "spectest", "print", vi);

	// memory
	BinaryenSetMemory(module, 1, 1, "mem", NULL, NULL, NULL, 0);

	assert(BinaryenModuleValidate(module));

	BinaryenModulePrint(module);

	BinaryenModuleOptimize(module);

	assert(BinaryenModuleValidate(module));

	BinaryenModulePrint(module);

	BinaryenModuleDispose(module);

	return 0;
	}