if(isProximateInnerExpr(compiler, innerExprOpPos)) return true; break; int leftPos = OpMap.getFirstChildPos(op); int rightPos = compiler.getNextOpPos(leftPos); isProx = isProximateInnerExpr(compiler, leftPos); if(isProx) return true; isProx = isProximateInnerExpr(compiler, rightPos); if(isProx) return true;
if(isProximateInnerExpr(compiler, innerExprOpPos)) return true; break; int leftPos = OpMap.getFirstChildPos(op); int rightPos = compiler.getNextOpPos(leftPos); isProx = isProximateInnerExpr(compiler, leftPos); if(isProx) return true; isProx = isProximateInnerExpr(compiler, rightPos); if(isProx) return true;
static boolean functionProximateOrContainsProximate(Compiler compiler, int opPos) { int endFunc = opPos + compiler.getOp(opPos + 1) - 1; opPos = OpMap.getFirstChildPos(opPos); int funcID = compiler.getOp(opPos); // System.out.println("funcID: "+funcID); // System.out.println("opPos: "+opPos); // System.out.println("endFunc: "+endFunc); switch(funcID) { case FunctionTable.FUNC_LAST: case FunctionTable.FUNC_POSITION: return true; default: opPos++; int i = 0; for (int p = opPos; p < endFunc; p = compiler.getNextOpPos(p), i++) { int innerExprOpPos = p+2; int argOp = compiler.getOp(innerExprOpPos); boolean prox = isProximateInnerExpr(compiler, innerExprOpPos); if(prox) return true; } } return false; }
static boolean functionProximateOrContainsProximate(Compiler compiler, int opPos) { int endFunc = opPos + compiler.getOp(opPos + 1) - 1; opPos = OpMap.getFirstChildPos(opPos); int funcID = compiler.getOp(opPos); // System.out.println("funcID: "+funcID); // System.out.println("opPos: "+opPos); // System.out.println("endFunc: "+endFunc); switch(funcID) { case FunctionTable.FUNC_LAST: case FunctionTable.FUNC_POSITION: return true; default: opPos++; int i = 0; for (int p = opPos; p < endFunc; p = compiler.getNextOpPos(p), i++) { int innerExprOpPos = p+2; int argOp = compiler.getOp(innerExprOpPos); boolean prox = isProximateInnerExpr(compiler, innerExprOpPos); if(prox) return true; } } return false; }
int leftPos = OpMap.getFirstChildPos(innerExprOpPos); int rightPos = compiler.getNextOpPos(leftPos); isProx = isProximateInnerExpr(compiler, leftPos); if(isProx) return true; isProx = isProximateInnerExpr(compiler, rightPos); if(isProx) return true;
int leftPos = OpMap.getFirstChildPos(innerExprOpPos); int rightPos = compiler.getNextOpPos(leftPos); isProx = isProximateInnerExpr(compiler, leftPos); if(isProx) return true; isProx = isProximateInnerExpr(compiler, rightPos); if(isProx) return true;
if(isProximateInnerExpr(compiler, innerExprOpPos)) return true; break; int leftPos = OpMap.getFirstChildPos(op); int rightPos = compiler.getNextOpPos(leftPos); isProx = isProximateInnerExpr(compiler, leftPos); if(isProx) return true; isProx = isProximateInnerExpr(compiler, rightPos); if(isProx) return true;
if(isProximateInnerExpr(compiler, innerExprOpPos)) return true; break; int leftPos = OpMap.getFirstChildPos(op); int rightPos = compiler.getNextOpPos(leftPos); isProx = isProximateInnerExpr(compiler, leftPos); if(isProx) return true; isProx = isProximateInnerExpr(compiler, rightPos); if(isProx) return true;
if(isProximateInnerExpr(compiler, innerExprOpPos)) return true; break; int leftPos = OpMap.getFirstChildPos(op); int rightPos = compiler.getNextOpPos(leftPos); isProx = isProximateInnerExpr(compiler, leftPos); if(isProx) return true; isProx = isProximateInnerExpr(compiler, rightPos); if(isProx) return true;
if(isProximateInnerExpr(compiler, innerExprOpPos)) return true; break; int leftPos = OpMap.getFirstChildPos(op); int rightPos = compiler.getNextOpPos(leftPos); isProx = isProximateInnerExpr(compiler, leftPos); if(isProx) return true; isProx = isProximateInnerExpr(compiler, rightPos); if(isProx) return true;
if(isProximateInnerExpr(compiler, innerExprOpPos)) return true; break; int leftPos = OpMap.getFirstChildPos(op); int rightPos = compiler.getNextOpPos(leftPos); isProx = isProximateInnerExpr(compiler, leftPos); if(isProx) return true; isProx = isProximateInnerExpr(compiler, rightPos); if(isProx) return true;
static boolean functionProximateOrContainsProximate(Compiler compiler, int opPos) { int endFunc = opPos + compiler.getOp(opPos + 1) - 1; opPos = OpMap.getFirstChildPos(opPos); int funcID = compiler.getOp(opPos); // System.out.println("funcID: "+funcID); // System.out.println("opPos: "+opPos); // System.out.println("endFunc: "+endFunc); switch(funcID) { case FunctionTable.FUNC_LAST: case FunctionTable.FUNC_POSITION: return true; default: opPos++; int i = 0; for (int p = opPos; p < endFunc; p = compiler.getNextOpPos(p), i++) { int innerExprOpPos = p+2; int argOp = compiler.getOp(innerExprOpPos); boolean prox = isProximateInnerExpr(compiler, innerExprOpPos); if(prox) return true; } } return false; }
static boolean functionProximateOrContainsProximate(Compiler compiler, int opPos) { int endFunc = opPos + compiler.getOp(opPos + 1) - 1; opPos = OpMap.getFirstChildPos(opPos); int funcID = compiler.getOp(opPos); // System.out.println("funcID: "+funcID); // System.out.println("opPos: "+opPos); // System.out.println("endFunc: "+endFunc); switch(funcID) { case FunctionTable.FUNC_LAST: case FunctionTable.FUNC_POSITION: return true; default: opPos++; int i = 0; for (int p = opPos; p < endFunc; p = compiler.getNextOpPos(p), i++) { int innerExprOpPos = p+2; int argOp = compiler.getOp(innerExprOpPos); boolean prox = isProximateInnerExpr(compiler, innerExprOpPos); if(prox) return true; } } return false; }
static boolean functionProximateOrContainsProximate(Compiler compiler, int opPos) { int endFunc = opPos + compiler.getOp(opPos + 1) - 1; opPos = OpMap.getFirstChildPos(opPos); int funcID = compiler.getOp(opPos); // System.out.println("funcID: "+funcID); // System.out.println("opPos: "+opPos); // System.out.println("endFunc: "+endFunc); switch(funcID) { case FunctionTable.FUNC_LAST: case FunctionTable.FUNC_POSITION: return true; default: opPos++; int i = 0; for (int p = opPos; p < endFunc; p = compiler.getNextOpPos(p), i++) { int innerExprOpPos = p+2; int argOp = compiler.getOp(innerExprOpPos); boolean prox = isProximateInnerExpr(compiler, innerExprOpPos); if(prox) return true; } } return false; }
static boolean functionProximateOrContainsProximate(Compiler compiler, int opPos) { int endFunc = opPos + compiler.getOp(opPos + 1) - 1; opPos = OpMap.getFirstChildPos(opPos); int funcID = compiler.getOp(opPos); // System.out.println("funcID: "+funcID); // System.out.println("opPos: "+opPos); // System.out.println("endFunc: "+endFunc); switch(funcID) { case FunctionTable.FUNC_LAST: case FunctionTable.FUNC_POSITION: return true; default: opPos++; int i = 0; for (int p = opPos; p < endFunc; p = compiler.getNextOpPos(p), i++) { int innerExprOpPos = p+2; int argOp = compiler.getOp(innerExprOpPos); boolean prox = isProximateInnerExpr(compiler, innerExprOpPos); if(prox) return true; } } return false; }
static boolean functionProximateOrContainsProximate(Compiler compiler, int opPos) { int endFunc = opPos + compiler.getOp(opPos + 1) - 1; opPos = OpMap.getFirstChildPos(opPos); int funcID = compiler.getOp(opPos); // System.out.println("funcID: "+funcID); // System.out.println("opPos: "+opPos); // System.out.println("endFunc: "+endFunc); switch(funcID) { case FunctionTable.FUNC_LAST: case FunctionTable.FUNC_POSITION: return true; default: opPos++; int i = 0; for (int p = opPos; p < endFunc; p = compiler.getNextOpPos(p), i++) { int innerExprOpPos = p+2; int argOp = compiler.getOp(innerExprOpPos); boolean prox = isProximateInnerExpr(compiler, innerExprOpPos); if(prox) return true; } } return false; }
static boolean functionProximateOrContainsProximate(Compiler compiler, int opPos) { int endFunc = opPos + compiler.getOp(opPos + 1) - 1; opPos = OpMap.getFirstChildPos(opPos); int funcID = compiler.getOp(opPos); // System.out.println("funcID: "+funcID); // System.out.println("opPos: "+opPos); // System.out.println("endFunc: "+endFunc); switch(funcID) { case FunctionTable.FUNC_LAST: case FunctionTable.FUNC_POSITION: return true; default: opPos++; int i = 0; for (int p = opPos; p < endFunc; p = compiler.getNextOpPos(p), i++) { int innerExprOpPos = p+2; int argOp = compiler.getOp(innerExprOpPos); boolean prox = isProximateInnerExpr(compiler, innerExprOpPos); if(prox) return true; } } return false; }
static boolean functionProximateOrContainsProximate(Compiler compiler, int opPos) { int endFunc = opPos + compiler.getOp(opPos + 1) - 1; opPos = OpMap.getFirstChildPos(opPos); int funcID = compiler.getOp(opPos); // System.out.println("funcID: "+funcID); // System.out.println("opPos: "+opPos); // System.out.println("endFunc: "+endFunc); switch(funcID) { case FunctionTable.FUNC_LAST: case FunctionTable.FUNC_POSITION: return true; default: opPos++; int i = 0; for (int p = opPos; p < endFunc; p = compiler.getNextOpPos(p), i++) { int innerExprOpPos = p+2; int argOp = compiler.getOp(innerExprOpPos); boolean prox = isProximateInnerExpr(compiler, innerExprOpPos); if(prox) return true; } } return false; }
static boolean functionProximateOrContainsProximate(Compiler compiler, int opPos) { int endFunc = opPos + compiler.getOp(opPos + 1) - 1; opPos = OpMap.getFirstChildPos(opPos); int funcID = compiler.getOp(opPos); // System.out.println("funcID: "+funcID); // System.out.println("opPos: "+opPos); // System.out.println("endFunc: "+endFunc); switch(funcID) { case FunctionTable.FUNC_LAST: case FunctionTable.FUNC_POSITION: return true; default: opPos++; int i = 0; for (int p = opPos; p < endFunc; p = compiler.getNextOpPos(p), i++) { int innerExprOpPos = p+2; int argOp = compiler.getOp(innerExprOpPos); boolean prox = isProximateInnerExpr(compiler, innerExprOpPos); if(prox) return true; } } return false; }
static boolean functionProximateOrContainsProximate(Compiler compiler, int opPos) { int endFunc = opPos + compiler.getOp(opPos + 1) - 1; opPos = OpMap.getFirstChildPos(opPos); int funcID = compiler.getOp(opPos); // System.out.println("funcID: "+funcID); // System.out.println("opPos: "+opPos); // System.out.println("endFunc: "+endFunc); switch(funcID) { case FunctionTable.FUNC_LAST: case FunctionTable.FUNC_POSITION: return true; default: opPos++; int i = 0; for (int p = opPos; p < endFunc; p = compiler.getNextOpPos(p), i++) { int innerExprOpPos = p+2; int argOp = compiler.getOp(innerExprOpPos); boolean prox = isProximateInnerExpr(compiler, innerExprOpPos); if(prox) return true; } } return false; }