#include #include #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, BinaryenGeUInt32(), BinaryenLoad(module, 4, 0, 0, 0, BinaryenTypeInt32(), BinaryenConst(module, BinaryenLiteralInt32(4))), BinaryenConst(module, BinaryenLiteralInt32(4 * 12)) // 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, BinaryenTypeInt32(), BinaryenConst(module, BinaryenLiteralInt32(4))), BinaryenConst(module, BinaryenLiteralInt32(4)) ), BinaryenTypeInt32() ); // optionally, print the return value BinaryenExpressionRef args[] = { BinaryenBinary(module, BinaryenSubInt32(), BinaryenConst(module, BinaryenLiteralInt32(0)), BinaryenLoad(module, 4, 0, 4, 0, BinaryenTypeInt32(), BinaryenLoad(module, 4, 0, 0, 0, BinaryenTypeInt32(), BinaryenConst(module, BinaryenLiteralInt32(4))) ) ) }; BinaryenExpressionRef debugger; if (1) debugger = BinaryenCall(module, "print", args, 1, BinaryenTypeNone()); 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, BinaryenTypeInt32(), BinaryenLoad(module, 4, 0, 0, 0, BinaryenTypeInt32(), BinaryenConst(module, BinaryenLiteralInt32(4))) ); BinaryenExpressionRef checkBodyList[] = { halter, incer, debugger, returner }; BinaryenExpressionRef checkBody = BinaryenBlock(module, NULL, checkBodyList, sizeof(checkBodyList) / sizeof(BinaryenExpressionRef), BinaryenTypeInt32() ); BinaryenAddFunction(module, "check", BinaryenTypeNone(), BinaryenTypeInt32(), NULL, 0, checkBody); // contents of main() begin here RelooperRef relooper = RelooperCreate(module); RelooperBlockRef b0; { BinaryenExpressionRef args[] = { BinaryenConst(module, BinaryenLiteralInt32(0)) }; BinaryenExpressionRef list[] = { BinaryenCall(module, "print", args, 1, BinaryenTypeNone()), BinaryenLocalSet(module, 0, BinaryenCall(module, "check", NULL, 0, BinaryenTypeInt32())) }; b0 = RelooperAddBlockWithSwitch(relooper, BinaryenBlock(module, NULL, list, 2, BinaryenTypeNone()), BinaryenBinary(module, BinaryenRemUInt32(), BinaryenLocalGet(module, 0, BinaryenTypeInt32()), BinaryenConst(module, BinaryenLiteralInt32(1)) ) ); } RelooperBlockRef b1; { BinaryenExpressionRef args[] = { BinaryenConst(module, BinaryenLiteralInt32(1)) }; BinaryenExpressionRef list[] = { BinaryenCall(module, "print", args, 1, BinaryenTypeNone()), BinaryenLocalSet(module, 0, BinaryenCall(module, "check", NULL, 0, BinaryenTypeInt32())) }; b1 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2, BinaryenTypeNone())); } RelooperBlockRef b2; { BinaryenExpressionRef args[] = { BinaryenConst(module, BinaryenLiteralInt32(1)) }; BinaryenExpressionRef list[] = { BinaryenCall(module, "print", args, 1, BinaryenTypeNone()), BinaryenLocalSet(module, 0, BinaryenCall(module, "check", NULL, 0, BinaryenTypeInt32())) }; b2 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2, BinaryenTypeNone())); } RelooperBlockRef b3; { BinaryenExpressionRef args[] = { BinaryenConst(module, BinaryenLiteralInt32(1)) }; BinaryenExpressionRef list[] = { BinaryenCall(module, "print", args, 1, BinaryenTypeNone()), BinaryenLocalSet(module, 0, BinaryenCall(module, "check", NULL, 0, BinaryenTypeInt32())) }; b3 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2, BinaryenTypeNone())); } RelooperBlockRef b4; { BinaryenExpressionRef args[] = { BinaryenConst(module, BinaryenLiteralInt32(1)) }; BinaryenExpressionRef list[] = { BinaryenCall(module, "print", args, 1, BinaryenTypeNone()), BinaryenLocalSet(module, 0, BinaryenCall(module, "check", NULL, 0, BinaryenTypeInt32())) }; b4 = RelooperAddBlock(relooper, BinaryenBlock(module, NULL, list, 2, BinaryenTypeNone())); } // Separate branch for each. // In this testcase, we can merge multiple consecutive blocks with phis. RelooperAddBranch(b0, b1, NULL, BinaryenDrop(module, BinaryenConst(module, BinaryenLiteralInt32(10)))); RelooperAddBranch(b1, b2, NULL, BinaryenDrop(module, BinaryenConst(module, BinaryenLiteralInt32(11)))); RelooperAddBranch(b2, b3, NULL, NULL); RelooperAddBranch(b3, b4, NULL, BinaryenDrop(module, BinaryenConst(module, BinaryenLiteralInt32(12)))); BinaryenExpressionRef body = RelooperRenderAndDispose(relooper, b0, 1); // locals: state, free-for-label BinaryenType localTypes[] = { BinaryenTypeInt32(), BinaryenTypeInt32() }; BinaryenFunctionRef theMain = BinaryenAddFunction(module, "main", BinaryenTypeNone(), BinaryenTypeNone(), localTypes, 2, body); BinaryenSetStart(module, theMain); // import BinaryenAddFunctionImport(module, "print", "spectest", "print", BinaryenTypeInt32(), BinaryenTypeNone()); // memory BinaryenSetMemory(module, 1, 1, "mem", NULL, NULL, NULL, NULL, 0, 0); // optionally, optimize if (0) BinaryenModuleOptimize(module); assert(BinaryenModuleValidate(module)); // write it out BinaryenModulePrint(module); BinaryenModuleDispose(module); return 0; }