// |jit-test| skip-if: !isAsmJSCompilationAvailable() load(libdir + "asm.js"); var g = newGlobal({alwaysUseFdlibm: true}) var code = (fun) => { return `(function asm(glob) { "use asm"; var sq=glob.Math.${fun}; function f(d) { d=+d; return +sq(d) } return f; })`; } // Linking RFP asm.js with non-RFP Math.sin. let asmSin = g.eval(code("sin")); assertAsmLinkFail(asmSin, {Math: {sin: Math.sin}}); // Linking RFP asm.js with RFP Math.sin const sin = asmLink(asmSin, {Math: {sin: g.Math.sin}}); assertEq(sin(35*Math.LN2 ), -0.765996413898051); assertEq(sin(110*Math.LOG2E), 0.9989410140273757); assertEq(sin(7*Math.LOG10E ), 0.10135692924965616); // Linking non-RFP asm.js with RFP Math.sin asmSin = eval(code("sin")) assertAsmLinkFail(asmSin, {Math: {sin: g.Math.sin}}); // Linking non-RFP asm.js with non-RFP Math.sin (the "normal case") asmLink(asmSin, {Math: {sin: Math.sin}}); // Testing cos let asmCos = g.eval(code("cos")); assertAsmLinkFail(asmCos, {Math: {cos: Math.cos}}); const cos = asmLink(asmCos, {Math: {cos: g.Math.cos}}); assertEq(cos(1e130 ), -0.767224894221913); assertEq(cos(1e272 ), -0.7415825695514536); assertEq(cos(1e284 ), 0.7086865671674247); assertEq(cos(1e75 ), -0.7482651726250321); assertEq(cos(57*Math.E ), -0.536911695749024); assertEq(cos(21*Math.LN2 ), -0.4067775970251724); assertEq(cos(51*Math.LN2 ), -0.7017203400855446); assertEq(cos(21*Math.SQRT1_2), -0.6534063185820198); assertEq(cos(17*Math.LOG10E ), 0.4537557425982784); assertEq(cos(2*Math.LOG10E ), 0.6459044007438142); // Testing tan let asmTan = g.eval(code("tan")); assertAsmLinkFail(asmTan, {Math: {tan: Math.tan}}); const tan = asmLink(asmTan, {Math: {tan: g.Math.tan}}); assertEq(tan(1e140 ), 0.7879079967710036); assertEq(tan(6*Math.E ), 0.6866761546452431); assertEq(tan(6*Math.LN2 ), 1.6182817135715877); assertEq(tan(10*Math.LOG2E ), -3.3537128705376014); assertEq(tan(17*Math.SQRT2 ), -1.9222955461799982); assertEq(tan(34*Math.SQRT1_2), -1.9222955461799982); assertEq(tan(10*Math.LOG10E ), 2.5824856130712432);