/* * AUTOGENERATED FILE. DO NOT EDIT IT * Generated by "generate_js_bindings.py -c chipmunk_jsb.ini" on 2012-11-07 * Script version: v0.3 */ #include "js_bindings_config.h" #ifdef JSB_INCLUDE_CHIPMUNK #include "js_bindings_chipmunk_manual.h" #include "jsfriendapi.h" #include "js_bindings_config.h" #include "js_manual_conversions.h" #include "js_bindings_chipmunk_functions.h" // Arguments: cpArbiter* // Ret value: int bool JSB_cpArbiterGetCount(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpArbiter* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); int ret_val = 0; ret_val = cpArbiterGetCount((cpArbiter*)arg0 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpArbiter*, int // Ret value: cpFloat bool JSB_cpArbiterGetDepth(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpArbiter* arg0 = nullptr; int32_t arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_int32( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpArbiterGetDepth((cpArbiter*)arg0 , (int)arg1 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpArbiter* // Ret value: cpFloat bool JSB_cpArbiterGetElasticity(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpArbiter* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpArbiterGetElasticity((cpArbiter*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpArbiter* // Ret value: cpFloat bool JSB_cpArbiterGetFriction(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpArbiter* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpArbiterGetFriction((cpArbiter*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpArbiter*, int // Ret value: cpVect bool JSB_cpArbiterGetNormal(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpArbiter* arg0 = nullptr; int32_t arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_int32( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpArbiterGetNormal((cpArbiter*)arg0 , (int)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpArbiter*, int // Ret value: cpVect bool JSB_cpArbiterGetPoint(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpArbiter* arg0 = nullptr; int32_t arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_int32( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpArbiterGetPoint((cpArbiter*)arg0 , (int)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpArbiter* // Ret value: cpVect bool JSB_cpArbiterGetSurfaceVelocity(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpArbiter* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpArbiterGetSurfaceVelocity((cpArbiter*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpArbiter* // Ret value: void bool JSB_cpArbiterIgnore(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpArbiter* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpArbiterIgnore((cpArbiter*)arg0 ); args.rval().setUndefined(); return true; } // Arguments: cpArbiter* // Ret value: cpBool bool JSB_cpArbiterIsFirstContact(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpArbiter* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpArbiterIsFirstContact((cpArbiter*)arg0 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpArbiter*, cpFloat // Ret value: void bool JSB_cpArbiterSetElasticity(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpArbiter* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpArbiterSetElasticity((cpArbiter*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpArbiter*, cpFloat // Ret value: void bool JSB_cpArbiterSetFriction(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpArbiter* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpArbiterSetFriction((cpArbiter*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpArbiter*, cpVect // Ret value: void bool JSB_cpArbiterSetSurfaceVelocity(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpArbiter* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpArbiterSetSurfaceVelocity((cpArbiter*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpArbiter* // Ret value: cpVect bool JSB_cpArbiterTotalImpulse(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpArbiter* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpArbiterTotalImpulse((cpArbiter*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpArbiter* // Ret value: cpVect bool JSB_cpArbiterTotalImpulseWithFriction(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpArbiter* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpArbiterTotalImpulseWithFriction((cpArbiter*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpArbiter* // Ret value: cpFloat bool JSB_cpArbiterTotalKE(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpArbiter* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpArbiterTotalKE((cpArbiter*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpFloat, cpFloat // Ret value: cpFloat bool JSB_cpAreaForCircle(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double arg0 = 0; double arg1 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpAreaForCircle((cpFloat)arg0 , (cpFloat)arg1 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpVect, cpVect, cpFloat // Ret value: cpFloat bool JSB_cpAreaForSegment(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; double arg2 = 0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpAreaForSegment((cpVect)arg0 , (cpVect)arg1 , (cpFloat)arg2 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBB // Ret value: cpFloat bool JSB_cpBBArea(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBB arg0; ok &= jsval_to_cpBB( cx, args.get(0), (cpBB*) &arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpBBArea((cpBB)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBB, cpVect // Ret value: cpVect bool JSB_cpBBClampVect(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBB arg0; cpVect arg1; ok &= jsval_to_cpBB( cx, args.get(0), (cpBB*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpBBClampVect((cpBB)arg0 , (cpVect)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBB, cpBB // Ret value: cpBool bool JSB_cpBBContainsBB(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBB arg0; cpBB arg1; ok &= jsval_to_cpBB( cx, args.get(0), (cpBB*) &arg0 ); ok &= jsval_to_cpBB( cx, args.get(1), (cpBB*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpBBContainsBB((cpBB)arg0 , (cpBB)arg1 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpBB, cpVect // Ret value: cpBool bool JSB_cpBBContainsVect(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBB arg0; cpVect arg1; ok &= jsval_to_cpBB( cx, args.get(0), (cpBB*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpBBContainsVect((cpBB)arg0 , (cpVect)arg1 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpBB, cpVect // Ret value: cpBB bool JSB_cpBBExpand(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBB arg0; cpVect arg1; ok &= jsval_to_cpBB( cx, args.get(0), (cpBB*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBB ret_val; ret_val = cpBBExpand((cpBB)arg0 , (cpVect)arg1 ); jsval ret_jsval = cpBB_to_jsval( cx, (cpBB)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBB, cpBB // Ret value: cpBool bool JSB_cpBBIntersects(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBB arg0; cpBB arg1; ok &= jsval_to_cpBB( cx, args.get(0), (cpBB*) &arg0 ); ok &= jsval_to_cpBB( cx, args.get(1), (cpBB*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpBBIntersects((cpBB)arg0 , (cpBB)arg1 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpBB, cpVect, cpVect // Ret value: cpBool bool JSB_cpBBIntersectsSegment(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBB arg0; cpVect arg1; cpVect arg2; ok &= jsval_to_cpBB( cx, args.get(0), (cpBB*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpBBIntersectsSegment((cpBB)arg0 , (cpVect)arg1 , (cpVect)arg2 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpBB, cpBB // Ret value: cpBB bool JSB_cpBBMerge(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBB arg0; cpBB arg1; ok &= jsval_to_cpBB( cx, args.get(0), (cpBB*) &arg0 ); ok &= jsval_to_cpBB( cx, args.get(1), (cpBB*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBB ret_val; ret_val = cpBBMerge((cpBB)arg0 , (cpBB)arg1 ); jsval ret_jsval = cpBB_to_jsval( cx, (cpBB)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBB, cpBB // Ret value: cpFloat bool JSB_cpBBMergedArea(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBB arg0; cpBB arg1; ok &= jsval_to_cpBB( cx, args.get(0), (cpBB*) &arg0 ); ok &= jsval_to_cpBB( cx, args.get(1), (cpBB*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpBBMergedArea((cpBB)arg0 , (cpBB)arg1 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpFloat, cpFloat, cpFloat, cpFloat // Ret value: cpBB bool JSB_cpBBNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 4, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double arg0 = 0; double arg1 = 0; double arg2 = 0; double arg3 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); ok &= JS::ToNumber( cx, args.get(3), &arg3 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBB ret_val; ret_val = cpBBNew((cpFloat)arg0 , (cpFloat)arg1 , (cpFloat)arg2 , (cpFloat)arg3 ); jsval ret_jsval = cpBB_to_jsval( cx, (cpBB)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect, cpFloat // Ret value: cpBB bool JSB_cpBBNewForCircle(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; double arg1 = 0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBB ret_val; ret_val = cpBBNewForCircle((cpVect)arg0 , (cpFloat)arg1 ); jsval ret_jsval = cpBB_to_jsval( cx, (cpBB)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBB, cpVect, cpVect // Ret value: cpFloat bool JSB_cpBBSegmentQuery(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBB arg0; cpVect arg1; cpVect arg2; ok &= jsval_to_cpBB( cx, args.get(0), (cpBB*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpBBSegmentQuery((cpBB)arg0 , (cpVect)arg1 , (cpVect)arg2 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBB, cpVect // Ret value: cpVect bool JSB_cpBBWrapVect(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBB arg0; cpVect arg1; ok &= jsval_to_cpBB( cx, args.get(0), (cpBB*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpBBWrapVect((cpBB)arg0 , (cpVect)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody* // Ret value: void bool JSB_cpBodyActivate(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodyActivate((cpBody*)arg0 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpShape* // Ret value: void bool JSB_cpBodyActivateStatic(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpShape* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodyActivateStatic((cpBody*)arg0 , (cpShape*)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpVect, cpVect // Ret value: void bool JSB_cpBodyApplyForce(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpVect arg1; cpVect arg2; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodyApplyForce((cpBody*)arg0 , (cpVect)arg1 , (cpVect)arg2 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpVect, cpVect // Ret value: void bool JSB_cpBodyApplyImpulse(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpVect arg1; cpVect arg2; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodyApplyImpulse((cpBody*)arg0 , (cpVect)arg1 , (cpVect)arg2 ); args.rval().setUndefined(); return true; } // Arguments: cpBody* // Ret value: void bool JSB_cpBodyDestroy(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodyDestroy((cpBody*)arg0 ); args.rval().setUndefined(); return true; } // Arguments: cpBody* // Ret value: void bool JSB_cpBodyFree(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodyFree((cpBody*)arg0 ); args.rval().setUndefined(); return true; } // Arguments: cpBody* // Ret value: cpFloat bool JSB_cpBodyGetAngVel(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpBodyGetAngVel((cpBody*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody* // Ret value: cpFloat bool JSB_cpBodyGetAngVelLimit(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpBodyGetAngVelLimit((cpBody*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody* // Ret value: cpFloat bool JSB_cpBodyGetAngle(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpBodyGetAngle((cpBody*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody* // Ret value: cpVect bool JSB_cpBodyGetForce(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpBodyGetForce((cpBody*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody* // Ret value: cpFloat bool JSB_cpBodyGetMass(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpBodyGetMass((cpBody*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody* // Ret value: cpFloat bool JSB_cpBodyGetMoment(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpBodyGetMoment((cpBody*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody* // Ret value: cpVect bool JSB_cpBodyGetPos(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpBodyGetPos((cpBody*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody* // Ret value: cpVect bool JSB_cpBodyGetRot(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpBodyGetRot((cpBody*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody* // Ret value: cpSpace* bool JSB_cpBodyGetSpace(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpace* ret_val = nullptr; ret_val = cpBodyGetSpace((cpBody*)arg0 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody* // Ret value: cpFloat bool JSB_cpBodyGetTorque(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpBodyGetTorque((cpBody*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody* // Ret value: cpVect bool JSB_cpBodyGetVel(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpBodyGetVel((cpBody*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody*, cpVect // Ret value: cpVect bool JSB_cpBodyGetVelAtLocalPoint(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpBodyGetVelAtLocalPoint((cpBody*)arg0 , (cpVect)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody*, cpVect // Ret value: cpVect bool JSB_cpBodyGetVelAtWorldPoint(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpBodyGetVelAtWorldPoint((cpBody*)arg0 , (cpVect)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody* // Ret value: cpFloat bool JSB_cpBodyGetVelLimit(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpBodyGetVelLimit((cpBody*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody*, cpFloat, cpFloat // Ret value: cpBody* bool JSB_cpBodyInit(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; double arg1 = 0; double arg2 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBody* ret_val = nullptr; ret_val = cpBodyInit((cpBody*)arg0 , (cpFloat)arg1 , (cpFloat)arg2 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody* // Ret value: cpBody* bool JSB_cpBodyInitStatic(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBody* ret_val = nullptr; ret_val = cpBodyInitStatic((cpBody*)arg0 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody* // Ret value: cpBool bool JSB_cpBodyIsRogue(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpBodyIsRogue((cpBody*)arg0 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpBody* // Ret value: cpBool bool JSB_cpBodyIsSleeping(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpBodyIsSleeping((cpBody*)arg0 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpBody* // Ret value: cpBool bool JSB_cpBodyIsStatic(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpBodyIsStatic((cpBody*)arg0 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpBody* // Ret value: cpFloat bool JSB_cpBodyKineticEnergy(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpBodyKineticEnergy((cpBody*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody*, cpVect // Ret value: cpVect bool JSB_cpBodyLocal2World(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpBodyLocal2World((cpBody*)arg0 , (cpVect)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpFloat, cpFloat // Ret value: cpBody* bool JSB_cpBodyNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double arg0 = 0; double arg1 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBody* ret_val = nullptr; ret_val = cpBodyNew((cpFloat)arg0 , (cpFloat)arg1 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: // Ret value: cpBody* bool JSB_cpBodyNewStatic(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 0, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); cpBody* ret_val = nullptr; ret_val = cpBodyNewStatic( ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody* // Ret value: void bool JSB_cpBodyResetForces(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodyResetForces((cpBody*)arg0 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpFloat // Ret value: void bool JSB_cpBodySetAngVel(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodySetAngVel((cpBody*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpFloat // Ret value: void bool JSB_cpBodySetAngVelLimit(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodySetAngVelLimit((cpBody*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpFloat // Ret value: void bool JSB_cpBodySetAngle(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodySetAngle((cpBody*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpVect // Ret value: void bool JSB_cpBodySetForce(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodySetForce((cpBody*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpFloat // Ret value: void bool JSB_cpBodySetMass(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodySetMass((cpBody*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpFloat // Ret value: void bool JSB_cpBodySetMoment(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodySetMoment((cpBody*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpVect // Ret value: void bool JSB_cpBodySetPos(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodySetPos((cpBody*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpFloat // Ret value: void bool JSB_cpBodySetTorque(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodySetTorque((cpBody*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpVect // Ret value: void bool JSB_cpBodySetVel(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodySetVel((cpBody*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpFloat // Ret value: void bool JSB_cpBodySetVelLimit(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodySetVelLimit((cpBody*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpBody* // Ret value: void bool JSB_cpBodySleep(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodySleep((cpBody*)arg0 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpBody* // Ret value: void bool JSB_cpBodySleepWithGroup(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpBody* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodySleepWithGroup((cpBody*)arg0 , (cpBody*)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpFloat // Ret value: void bool JSB_cpBodyUpdatePosition(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodyUpdatePosition((cpBody*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpVect, cpFloat, cpFloat // Ret value: void bool JSB_cpBodyUpdateVelocity(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 4, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpVect arg1; double arg2 = 0; double arg3 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); ok &= JS::ToNumber( cx, args.get(3), &arg3 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBodyUpdateVelocity((cpBody*)arg0 , (cpVect)arg1 , (cpFloat)arg2 , (cpFloat)arg3 ); args.rval().setUndefined(); return true; } // Arguments: cpBody*, cpVect // Ret value: cpVect bool JSB_cpBodyWorld2Local(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpBodyWorld2Local((cpBody*)arg0 , (cpVect)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody*, cpFloat, cpFloat // Ret value: cpShape* bool JSB_cpBoxShapeNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; double arg1 = 0; double arg2 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShape* ret_val = nullptr; ret_val = cpBoxShapeNew((cpBody*)arg0 , (cpFloat)arg1 , (cpFloat)arg2 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody*, cpBB // Ret value: cpShape* bool JSB_cpBoxShapeNew2(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpBB arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpBB( cx, args.get(1), (cpBB*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShape* ret_val = nullptr; ret_val = cpBoxShapeNew2((cpBody*)arg0 , (cpBB)arg1 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpShape* // Ret value: cpVect bool JSB_cpCircleShapeGetOffset(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpCircleShapeGetOffset((cpShape*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpShape* // Ret value: cpFloat bool JSB_cpCircleShapeGetRadius(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpCircleShapeGetRadius((cpShape*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody*, cpFloat, cpVect // Ret value: cpShape* bool JSB_cpCircleShapeNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; double arg1 = 0; cpVect arg2; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShape* ret_val = nullptr; ret_val = cpCircleShapeNew((cpBody*)arg0 , (cpFloat)arg1 , (cpVect)arg2 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint* // Ret value: void bool JSB_cpConstraintActivateBodies(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraintActivateBodies((cpConstraint*)arg0 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint* // Ret value: void bool JSB_cpConstraintDestroy(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraintDestroy((cpConstraint*)arg0 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint* // Ret value: void bool JSB_cpConstraintFree(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraintFree((cpConstraint*)arg0 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint* // Ret value: cpBody* bool JSB_cpConstraintGetA(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBody* ret_val = nullptr; ret_val = cpConstraintGetA((cpConstraint*)arg0 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint* // Ret value: cpBody* bool JSB_cpConstraintGetB(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBody* ret_val = nullptr; ret_val = cpConstraintGetB((cpConstraint*)arg0 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpConstraintGetErrorBias(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpConstraintGetErrorBias((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpConstraintGetImpulse(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpConstraintGetImpulse((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpConstraintGetMaxBias(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpConstraintGetMaxBias((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpConstraintGetMaxForce(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpConstraintGetMaxForce((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpConstraint* // Ret value: cpSpace* bool JSB_cpConstraintGetSpace(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpace* ret_val = nullptr; ret_val = cpConstraintGetSpace((cpConstraint*)arg0 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpConstraintSetErrorBias(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraintSetErrorBias((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpConstraintSetMaxBias(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraintSetMaxBias((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpConstraintSetMaxForce(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraintSetMaxForce((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpDampedRotarySpringGetDamping(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpDampedRotarySpringGetDamping((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpDampedRotarySpringGetRestAngle(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpDampedRotarySpringGetRestAngle((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpDampedRotarySpringGetStiffness(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpDampedRotarySpringGetStiffness((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody*, cpBody*, cpFloat, cpFloat, cpFloat // Ret value: cpConstraint* bool JSB_cpDampedRotarySpringNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 5, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpBody* arg1 = nullptr; double arg2 = 0; double arg3 = 0; double arg4 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); ok &= JS::ToNumber( cx, args.get(3), &arg3 ); ok &= JS::ToNumber( cx, args.get(4), &arg4 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraint* ret_val = nullptr; ret_val = cpDampedRotarySpringNew((cpBody*)arg0 , (cpBody*)arg1 , (cpFloat)arg2 , (cpFloat)arg3 , (cpFloat)arg4 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpDampedRotarySpringSetDamping(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpDampedRotarySpringSetDamping((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpDampedRotarySpringSetRestAngle(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpDampedRotarySpringSetRestAngle((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpDampedRotarySpringSetStiffness(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpDampedRotarySpringSetStiffness((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint* // Ret value: cpVect bool JSB_cpDampedSpringGetAnchr1(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpDampedSpringGetAnchr1((cpConstraint*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint* // Ret value: cpVect bool JSB_cpDampedSpringGetAnchr2(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpDampedSpringGetAnchr2((cpConstraint*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpDampedSpringGetDamping(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpDampedSpringGetDamping((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpDampedSpringGetRestLength(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpDampedSpringGetRestLength((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpDampedSpringGetStiffness(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpDampedSpringGetStiffness((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody*, cpBody*, cpVect, cpVect, cpFloat, cpFloat, cpFloat // Ret value: cpConstraint* bool JSB_cpDampedSpringNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 7, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpBody* arg1 = nullptr; cpVect arg2; cpVect arg3; double arg4 = 0; double arg5 = 0; double arg6 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &arg2 ); ok &= jsval_to_cpVect( cx, args.get(3), (cpVect*) &arg3 ); ok &= JS::ToNumber( cx, args.get(4), &arg4 ); ok &= JS::ToNumber( cx, args.get(5), &arg5 ); ok &= JS::ToNumber( cx, args.get(6), &arg6 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraint* ret_val = nullptr; ret_val = cpDampedSpringNew((cpBody*)arg0 , (cpBody*)arg1 , (cpVect)arg2 , (cpVect)arg3 , (cpFloat)arg4 , (cpFloat)arg5 , (cpFloat)arg6 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint*, cpVect // Ret value: void bool JSB_cpDampedSpringSetAnchr1(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpDampedSpringSetAnchr1((cpConstraint*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpVect // Ret value: void bool JSB_cpDampedSpringSetAnchr2(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpDampedSpringSetAnchr2((cpConstraint*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpDampedSpringSetDamping(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpDampedSpringSetDamping((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpDampedSpringSetRestLength(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpDampedSpringSetRestLength((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpDampedSpringSetStiffness(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpDampedSpringSetStiffness((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpGearJointGetPhase(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpGearJointGetPhase((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpGearJointGetRatio(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpGearJointGetRatio((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody*, cpBody*, cpFloat, cpFloat // Ret value: cpConstraint* bool JSB_cpGearJointNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 4, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpBody* arg1 = nullptr; double arg2 = 0; double arg3 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); ok &= JS::ToNumber( cx, args.get(3), &arg3 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraint* ret_val = nullptr; ret_val = cpGearJointNew((cpBody*)arg0 , (cpBody*)arg1 , (cpFloat)arg2 , (cpFloat)arg3 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpGearJointSetPhase(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpGearJointSetPhase((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpGearJointSetRatio(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpGearJointSetRatio((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint* // Ret value: cpVect bool JSB_cpGrooveJointGetAnchr2(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpGrooveJointGetAnchr2((cpConstraint*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint* // Ret value: cpVect bool JSB_cpGrooveJointGetGrooveA(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpGrooveJointGetGrooveA((cpConstraint*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint* // Ret value: cpVect bool JSB_cpGrooveJointGetGrooveB(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpGrooveJointGetGrooveB((cpConstraint*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody*, cpBody*, cpVect, cpVect, cpVect // Ret value: cpConstraint* bool JSB_cpGrooveJointNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 5, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpBody* arg1 = nullptr; cpVect arg2; cpVect arg3; cpVect arg4; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &arg2 ); ok &= jsval_to_cpVect( cx, args.get(3), (cpVect*) &arg3 ); ok &= jsval_to_cpVect( cx, args.get(4), (cpVect*) &arg4 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraint* ret_val = nullptr; ret_val = cpGrooveJointNew((cpBody*)arg0 , (cpBody*)arg1 , (cpVect)arg2 , (cpVect)arg3 , (cpVect)arg4 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint*, cpVect // Ret value: void bool JSB_cpGrooveJointSetAnchr2(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpGrooveJointSetAnchr2((cpConstraint*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpVect // Ret value: void bool JSB_cpGrooveJointSetGrooveA(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpGrooveJointSetGrooveA((cpConstraint*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpVect // Ret value: void bool JSB_cpGrooveJointSetGrooveB(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpGrooveJointSetGrooveB((cpConstraint*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: // Ret value: void bool JSB_cpInitChipmunk(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 0, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); cpInitChipmunk( ); args.rval().setUndefined(); return true; } // Arguments: cpFloat, cpFloat, cpFloat // Ret value: cpFloat bool JSB_cpMomentForBox(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double arg0 = 0; double arg1 = 0; double arg2 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpMomentForBox((cpFloat)arg0 , (cpFloat)arg1 , (cpFloat)arg2 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpFloat, cpBB // Ret value: cpFloat bool JSB_cpMomentForBox2(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double arg0 = 0; cpBB arg1; ok &= JS::ToNumber( cx, args.get(0), &arg0 ); ok &= jsval_to_cpBB( cx, args.get(1), (cpBB*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpMomentForBox2((cpFloat)arg0 , (cpBB)arg1 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpFloat, cpFloat, cpFloat, cpVect // Ret value: cpFloat bool JSB_cpMomentForCircle(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 4, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double arg0 = 0; double arg1 = 0; double arg2 = 0; cpVect arg3; ok &= JS::ToNumber( cx, args.get(0), &arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); ok &= jsval_to_cpVect( cx, args.get(3), (cpVect*) &arg3 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpMomentForCircle((cpFloat)arg0 , (cpFloat)arg1 , (cpFloat)arg2 , (cpVect)arg3 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpFloat, cpVect, cpVect // Ret value: cpFloat bool JSB_cpMomentForSegment(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double arg0 = 0; cpVect arg1; cpVect arg2; ok &= JS::ToNumber( cx, args.get(0), &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpMomentForSegment((cpFloat)arg0 , (cpVect)arg1 , (cpVect)arg2 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpConstraint* // Ret value: cpVect bool JSB_cpPinJointGetAnchr1(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpPinJointGetAnchr1((cpConstraint*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint* // Ret value: cpVect bool JSB_cpPinJointGetAnchr2(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpPinJointGetAnchr2((cpConstraint*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpPinJointGetDist(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpPinJointGetDist((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody*, cpBody*, cpVect, cpVect // Ret value: cpConstraint* bool JSB_cpPinJointNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 4, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpBody* arg1 = nullptr; cpVect arg2; cpVect arg3; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &arg2 ); ok &= jsval_to_cpVect( cx, args.get(3), (cpVect*) &arg3 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraint* ret_val = nullptr; ret_val = cpPinJointNew((cpBody*)arg0 , (cpBody*)arg1 , (cpVect)arg2 , (cpVect)arg3 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint*, cpVect // Ret value: void bool JSB_cpPinJointSetAnchr1(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpPinJointSetAnchr1((cpConstraint*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpVect // Ret value: void bool JSB_cpPinJointSetAnchr2(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpPinJointSetAnchr2((cpConstraint*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpPinJointSetDist(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpPinJointSetDist((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint* // Ret value: cpVect bool JSB_cpPivotJointGetAnchr1(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpPivotJointGetAnchr1((cpConstraint*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint* // Ret value: cpVect bool JSB_cpPivotJointGetAnchr2(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpPivotJointGetAnchr2((cpConstraint*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody*, cpBody*, cpVect // Ret value: cpConstraint* bool JSB_cpPivotJointNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3 || argc == 4, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpBody* arg1 = nullptr; cpVect arg2; cpVect arg3; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &arg2 ); if(argc == 4) { ok &= jsval_to_cpVect( cx, args.get(3), (cpVect*) &arg3 ); } JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraint* ret_val = nullptr; if(argc == 4) { ret_val = cpPivotJointNew2((cpBody*)arg0 , (cpBody*)arg1 , (cpVect)arg2 , (cpVect)arg3 ); } else { ret_val = cpPivotJointNew((cpBody*)arg0 , (cpBody*)arg1 , (cpVect)arg2 ); } jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpBody*, cpBody*, cpVect, cpVect // Ret value: cpConstraint* bool JSB_cpPivotJointNew2(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 4, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpBody* arg1 = nullptr; cpVect arg2; cpVect arg3; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &arg2 ); ok &= jsval_to_cpVect( cx, args.get(3), (cpVect*) &arg3 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraint* ret_val = nullptr; ret_val = cpPivotJointNew2((cpBody*)arg0 , (cpBody*)arg1 , (cpVect)arg2 , (cpVect)arg3 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint*, cpVect // Ret value: void bool JSB_cpPivotJointSetAnchr1(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpPivotJointSetAnchr1((cpConstraint*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpVect // Ret value: void bool JSB_cpPivotJointSetAnchr2(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpPivotJointSetAnchr2((cpConstraint*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpShape* // Ret value: int bool JSB_cpPolyShapeGetNumVerts(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); int ret_val = 0; ret_val = cpPolyShapeGetNumVerts((cpShape*)arg0 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpShape*, int // Ret value: cpVect bool JSB_cpPolyShapeGetVert(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; int32_t arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_int32( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpPolyShapeGetVert((cpShape*)arg0 , (int)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpRatchetJointGetAngle(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpRatchetJointGetAngle((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpRatchetJointGetPhase(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpRatchetJointGetPhase((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpRatchetJointGetRatchet(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpRatchetJointGetRatchet((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody*, cpBody*, cpFloat, cpFloat // Ret value: cpConstraint* bool JSB_cpRatchetJointNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 4, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpBody* arg1 = nullptr; double arg2 = 0; double arg3 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); ok &= JS::ToNumber( cx, args.get(3), &arg3 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraint* ret_val = nullptr; ret_val = cpRatchetJointNew((cpBody*)arg0 , (cpBody*)arg1 , (cpFloat)arg2 , (cpFloat)arg3 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpRatchetJointSetAngle(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpRatchetJointSetAngle((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpRatchetJointSetPhase(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpRatchetJointSetPhase((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpRatchetJointSetRatchet(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpRatchetJointSetRatchet((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: // Ret value: void bool JSB_cpResetShapeIdCounter(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 0, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); cpResetShapeIdCounter( ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpRotaryLimitJointGetMax(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpRotaryLimitJointGetMax((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpRotaryLimitJointGetMin(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpRotaryLimitJointGetMin((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody*, cpBody*, cpFloat, cpFloat // Ret value: cpConstraint* bool JSB_cpRotaryLimitJointNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 4, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpBody* arg1 = nullptr; double arg2 = 0; double arg3 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); ok &= JS::ToNumber( cx, args.get(3), &arg3 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraint* ret_val = nullptr; ret_val = cpRotaryLimitJointNew((cpBody*)arg0 , (cpBody*)arg1 , (cpFloat)arg2 , (cpFloat)arg3 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpRotaryLimitJointSetMax(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpRotaryLimitJointSetMax((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpRotaryLimitJointSetMin(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpRotaryLimitJointSetMin((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpShape* // Ret value: cpVect bool JSB_cpSegmentShapeGetA(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpSegmentShapeGetA((cpShape*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpShape* // Ret value: cpVect bool JSB_cpSegmentShapeGetB(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpSegmentShapeGetB((cpShape*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpShape* // Ret value: cpVect bool JSB_cpSegmentShapeGetNormal(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpSegmentShapeGetNormal((cpShape*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpShape* // Ret value: cpFloat bool JSB_cpSegmentShapeGetRadius(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpSegmentShapeGetRadius((cpShape*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody*, cpVect, cpVect, cpFloat // Ret value: cpShape* bool JSB_cpSegmentShapeNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 4, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpVect arg1; cpVect arg2; double arg3 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &arg2 ); ok &= JS::ToNumber( cx, args.get(3), &arg3 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShape* ret_val = nullptr; ret_val = cpSegmentShapeNew((cpBody*)arg0 , (cpVect)arg1 , (cpVect)arg2 , (cpFloat)arg3 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpShape*, cpVect, cpVect // Ret value: void bool JSB_cpSegmentShapeSetNeighbors(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; cpVect arg1; cpVect arg2; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSegmentShapeSetNeighbors((cpShape*)arg0 , (cpVect)arg1 , (cpVect)arg2 ); args.rval().setUndefined(); return true; } // Arguments: cpShape* // Ret value: cpBB bool JSB_cpShapeCacheBB(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBB ret_val; ret_val = cpShapeCacheBB((cpShape*)arg0 ); jsval ret_jsval = cpBB_to_jsval( cx, (cpBB)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpShape* // Ret value: void bool JSB_cpShapeDestroy(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShapeDestroy((cpShape*)arg0 ); args.rval().setUndefined(); return true; } // Arguments: cpShape* // Ret value: void bool JSB_cpShapeFree(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShapeFree((cpShape*)arg0 ); args.rval().setUndefined(); return true; } // Arguments: cpShape* // Ret value: cpBB bool JSB_cpShapeGetBB(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBB ret_val; ret_val = cpShapeGetBB((cpShape*)arg0 ); jsval ret_jsval = cpBB_to_jsval( cx, (cpBB)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpShape* // Ret value: cpBody* bool JSB_cpShapeGetBody(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBody* ret_val = nullptr; ret_val = cpShapeGetBody((cpShape*)arg0 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpShape* // Ret value: cpCollisionType bool JSB_cpShapeGetCollisionType(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpCollisionType ret_val = 0; ret_val = cpShapeGetCollisionType((cpShape*)arg0 ); jsval ret_jsval = uint32_to_jsval( cx, (cpCollisionType)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpShape* // Ret value: cpFloat bool JSB_cpShapeGetElasticity(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpShapeGetElasticity((cpShape*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpShape* // Ret value: cpFloat bool JSB_cpShapeGetFriction(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpShapeGetFriction((cpShape*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpShape* // Ret value: cpGroup bool JSB_cpShapeGetGroup(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpGroup ret_val = 0; ret_val = cpShapeGetGroup((cpShape*)arg0 ); jsval ret_jsval = uint32_to_jsval( cx, (cpGroup)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpShape* // Ret value: cpLayers bool JSB_cpShapeGetLayers(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpLayers ret_val = 0; ret_val = cpShapeGetLayers((cpShape*)arg0 ); args.rval().set(UINT_TO_JSVAL((uint32_t)ret_val)); return true; } // Arguments: cpShape* // Ret value: cpBool bool JSB_cpShapeGetSensor(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpShapeGetSensor((cpShape*)arg0 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpShape* // Ret value: cpSpace* bool JSB_cpShapeGetSpace(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpace* ret_val = nullptr; ret_val = cpShapeGetSpace((cpShape*)arg0 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpShape* // Ret value: cpVect bool JSB_cpShapeGetSurfaceVelocity(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpShapeGetSurfaceVelocity((cpShape*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpShape*, cpVect // Ret value: cpBool bool JSB_cpShapePointQuery(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpShapePointQuery((cpShape*)arg0 , (cpVect)arg1 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpShape*, cpBody* // Ret value: void bool JSB_cpShapeSetBody(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; cpBody* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShapeSetBody((cpShape*)arg0 , (cpBody*)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpShape*, cpCollisionType // Ret value: void bool JSB_cpShapeSetCollisionType(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; cpCollisionType arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_uint( cx, args.get(1), (unsigned int*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShapeSetCollisionType((cpShape*)arg0 , (cpCollisionType)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpShape*, cpFloat // Ret value: void bool JSB_cpShapeSetElasticity(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShapeSetElasticity((cpShape*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpShape*, cpFloat // Ret value: void bool JSB_cpShapeSetFriction(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShapeSetFriction((cpShape*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpShape*, cpGroup // Ret value: void bool JSB_cpShapeSetGroup(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; cpGroup arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_uint( cx, args.get(1), (unsigned int*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShapeSetGroup((cpShape*)arg0 , (cpGroup)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpShape*, cpLayers // Ret value: void bool JSB_cpShapeSetLayers(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; uint32_t arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_uint32( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShapeSetLayers((cpShape*)arg0 , (cpLayers)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpShape*, cpBool // Ret value: void bool JSB_cpShapeSetSensor(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; int32_t arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_int32( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShapeSetSensor((cpShape*)arg0 , (cpBool)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpShape*, cpVect // Ret value: void bool JSB_cpShapeSetSurfaceVelocity(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShapeSetSurfaceVelocity((cpShape*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpShape*, cpVect, cpVect // Ret value: cpBB bool JSB_cpShapeUpdate(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg0 = nullptr; cpVect arg1; cpVect arg2; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBB ret_val; ret_val = cpShapeUpdate((cpShape*)arg0 , (cpVect)arg1 , (cpVect)arg2 ); jsval ret_jsval = cpBB_to_jsval( cx, (cpBB)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpSimpleMotorGetRate(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpSimpleMotorGetRate((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody*, cpBody*, cpFloat // Ret value: cpConstraint* bool JSB_cpSimpleMotorNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpBody* arg1 = nullptr; double arg2 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraint* ret_val = nullptr; ret_val = cpSimpleMotorNew((cpBody*)arg0 , (cpBody*)arg1 , (cpFloat)arg2 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpSimpleMotorSetRate(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSimpleMotorSetRate((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint* // Ret value: cpVect bool JSB_cpSlideJointGetAnchr1(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpSlideJointGetAnchr1((cpConstraint*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint* // Ret value: cpVect bool JSB_cpSlideJointGetAnchr2(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpSlideJointGetAnchr2((cpConstraint*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpSlideJointGetMax(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpSlideJointGetMax((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpConstraint* // Ret value: cpFloat bool JSB_cpSlideJointGetMin(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpSlideJointGetMin((cpConstraint*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody*, cpBody*, cpVect, cpVect, cpFloat, cpFloat // Ret value: cpConstraint* bool JSB_cpSlideJointNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 6, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0 = nullptr; cpBody* arg1 = nullptr; cpVect arg2; cpVect arg3; double arg4 = 0; double arg5 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &arg2 ); ok &= jsval_to_cpVect( cx, args.get(3), (cpVect*) &arg3 ); ok &= JS::ToNumber( cx, args.get(4), &arg4 ); ok &= JS::ToNumber( cx, args.get(5), &arg5 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraint* ret_val = nullptr; ret_val = cpSlideJointNew((cpBody*)arg0 , (cpBody*)arg1 , (cpVect)arg2 , (cpVect)arg3 , (cpFloat)arg4 , (cpFloat)arg5 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpConstraint*, cpVect // Ret value: void bool JSB_cpSlideJointSetAnchr1(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSlideJointSetAnchr1((cpConstraint*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpVect // Ret value: void bool JSB_cpSlideJointSetAnchr2(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSlideJointSetAnchr2((cpConstraint*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpSlideJointSetMax(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSlideJointSetMax((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpConstraint*, cpFloat // Ret value: void bool JSB_cpSlideJointSetMin(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSlideJointSetMin((cpConstraint*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpShape* // Ret value: void bool JSB_cpSpaceActivateShapesTouchingShape(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpShape* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceActivateShapesTouchingShape((cpSpace*)arg0 , (cpShape*)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpBody* // Ret value: cpBody* bool JSB_cpSpaceAddBody(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpBody* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBody* ret_val = nullptr; ret_val = cpSpaceAddBody((cpSpace*)arg0 , (cpBody*)arg1 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpSpace*, cpConstraint* // Ret value: cpConstraint* bool JSB_cpSpaceAddConstraint(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpConstraint* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpConstraint* ret_val = nullptr; ret_val = cpSpaceAddConstraint((cpSpace*)arg0 , (cpConstraint*)arg1 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpSpace*, cpShape* // Ret value: cpShape* bool JSB_cpSpaceAddShape(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpShape* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShape* ret_val = nullptr; ret_val = cpSpaceAddShape((cpSpace*)arg0 , (cpShape*)arg1 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpSpace*, cpShape* // Ret value: cpShape* bool JSB_cpSpaceAddStaticShape(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpShape* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShape* ret_val = nullptr; ret_val = cpSpaceAddStaticShape((cpSpace*)arg0 , (cpShape*)arg1 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpSpace*, cpBody* // Ret value: cpBool bool JSB_cpSpaceContainsBody(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpBody* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpSpaceContainsBody((cpSpace*)arg0 , (cpBody*)arg1 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpSpace*, cpConstraint* // Ret value: cpBool bool JSB_cpSpaceContainsConstraint(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpConstraint* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpSpaceContainsConstraint((cpSpace*)arg0 , (cpConstraint*)arg1 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpSpace*, cpShape* // Ret value: cpBool bool JSB_cpSpaceContainsShape(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpShape* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpSpaceContainsShape((cpSpace*)arg0 , (cpShape*)arg1 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpSpace* // Ret value: void bool JSB_cpSpaceDestroy(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceDestroy((cpSpace*)arg0 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace* // Ret value: void bool JSB_cpSpaceFree(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceFree((cpSpace*)arg0 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace* // Ret value: cpFloat bool JSB_cpSpaceGetCollisionBias(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpSpaceGetCollisionBias((cpSpace*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpSpace* // Ret value: cpTimestamp bool JSB_cpSpaceGetCollisionPersistence(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpTimestamp ret_val = 0; ret_val = cpSpaceGetCollisionPersistence((cpSpace*)arg0 ); args.rval().set(UINT_TO_JSVAL((uint32_t)ret_val)); return true; } // Arguments: cpSpace* // Ret value: cpFloat bool JSB_cpSpaceGetCollisionSlop(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpSpaceGetCollisionSlop((cpSpace*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpSpace* // Ret value: cpFloat bool JSB_cpSpaceGetCurrentTimeStep(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpSpaceGetCurrentTimeStep((cpSpace*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpSpace* // Ret value: cpFloat bool JSB_cpSpaceGetDamping(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpSpaceGetDamping((cpSpace*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpSpace* // Ret value: cpBool bool JSB_cpSpaceGetEnableContactGraph(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpSpaceGetEnableContactGraph((cpSpace*)arg0 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpSpace* // Ret value: cpVect bool JSB_cpSpaceGetGravity(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpSpaceGetGravity((cpSpace*)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpSpace* // Ret value: cpFloat bool JSB_cpSpaceGetIdleSpeedThreshold(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpSpaceGetIdleSpeedThreshold((cpSpace*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpSpace* // Ret value: int bool JSB_cpSpaceGetIterations(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); int ret_val = 0; ret_val = cpSpaceGetIterations((cpSpace*)arg0 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpSpace* // Ret value: cpFloat bool JSB_cpSpaceGetSleepTimeThreshold(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpSpaceGetSleepTimeThreshold((cpSpace*)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpSpace* // Ret value: cpBody* bool JSB_cpSpaceGetStaticBody(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBody* ret_val = nullptr; ret_val = cpSpaceGetStaticBody((cpSpace*)arg0 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpSpace* // Ret value: cpSpace* bool JSB_cpSpaceInit(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpace* ret_val = nullptr; ret_val = cpSpaceInit((cpSpace*)arg0 ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpSpace* // Ret value: cpBool bool JSB_cpSpaceIsLocked(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpSpaceIsLocked((cpSpace*)arg0 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: // Ret value: cpSpace* bool JSB_cpSpaceNew(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 0, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); cpSpace* ret_val = nullptr; ret_val = cpSpaceNew( ); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpSpace*, cpVect, cpLayers, cpGroup // Ret value: cpShape* bool JSB_cpSpacePointQueryFirst(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 4, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpVect arg1; uint32_t arg2 = 0; cpGroup arg3 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= jsval_to_uint32( cx, args.get(2), &arg2 ); ok &= jsval_to_uint( cx, args.get(3), (unsigned int*) &arg3 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpShape* ret_val = nullptr; ret_val = cpSpacePointQueryFirst((cpSpace*)arg0 , (cpVect)arg1 , (cpLayers)arg2 , (cpGroup)arg3 ); if(ret_val) { jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); } else { args.rval().set(JSVAL_NULL); } return true; } // Arguments: cpSpace*, cpShape* // Ret value: void bool JSB_cpSpaceReindexShape(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpShape* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceReindexShape((cpSpace*)arg0 , (cpShape*)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpBody* // Ret value: void bool JSB_cpSpaceReindexShapesForBody(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpBody* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceReindexShapesForBody((cpSpace*)arg0 , (cpBody*)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace* // Ret value: void bool JSB_cpSpaceReindexStatic(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceReindexStatic((cpSpace*)arg0 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpBody* // Ret value: void bool JSB_cpSpaceRemoveBody(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpBody* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceRemoveBody((cpSpace*)arg0 , (cpBody*)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpConstraint* // Ret value: void bool JSB_cpSpaceRemoveConstraint(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpConstraint* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceRemoveConstraint((cpSpace*)arg0 , (cpConstraint*)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpShape* // Ret value: void bool JSB_cpSpaceRemoveShape(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpShape* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceRemoveShape((cpSpace*)arg0 , (cpShape*)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpShape* // Ret value: void bool JSB_cpSpaceRemoveStaticShape(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpShape* arg1 = nullptr; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_opaque( cx, args.get(1), (void**)&arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceRemoveStaticShape((cpSpace*)arg0 , (cpShape*)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpFloat // Ret value: void bool JSB_cpSpaceSetCollisionBias(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceSetCollisionBias((cpSpace*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpTimestamp // Ret value: void bool JSB_cpSpaceSetCollisionPersistence(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; uint32_t arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_uint32( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceSetCollisionPersistence((cpSpace*)arg0 , (cpTimestamp)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpFloat // Ret value: void bool JSB_cpSpaceSetCollisionSlop(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceSetCollisionSlop((cpSpace*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpFloat // Ret value: void bool JSB_cpSpaceSetDamping(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceSetDamping((cpSpace*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpBool // Ret value: void bool JSB_cpSpaceSetEnableContactGraph(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; int32_t arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_int32( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceSetEnableContactGraph((cpSpace*)arg0 , (cpBool)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpVect // Ret value: void bool JSB_cpSpaceSetGravity(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; cpVect arg1; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceSetGravity((cpSpace*)arg0 , (cpVect)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpFloat // Ret value: void bool JSB_cpSpaceSetIdleSpeedThreshold(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceSetIdleSpeedThreshold((cpSpace*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, int // Ret value: void bool JSB_cpSpaceSetIterations(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; int32_t arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= jsval_to_int32( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceSetIterations((cpSpace*)arg0 , (int)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpFloat // Ret value: void bool JSB_cpSpaceSetSleepTimeThreshold(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceSetSleepTimeThreshold((cpSpace*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpFloat // Ret value: void bool JSB_cpSpaceStep(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; double arg1 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceStep((cpSpace*)arg0 , (cpFloat)arg1 ); args.rval().setUndefined(); return true; } // Arguments: cpSpace*, cpFloat, int // Ret value: void bool JSB_cpSpaceUseSpatialHash(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0 = nullptr; double arg1 = 0; int32_t arg2 = 0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); ok &= jsval_to_int32( cx, args.get(2), &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSpaceUseSpatialHash((cpSpace*)arg0 , (cpFloat)arg1 , (int)arg2 ); args.rval().setUndefined(); return true; } // Arguments: cpFloat // Ret value: cpFloat bool JSB_cpfabs(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpfabs((cpFloat)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpFloat, cpFloat, cpFloat // Ret value: cpFloat bool JSB_cpfclamp(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double arg0 = 0; double arg1 = 0; double arg2 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpfclamp((cpFloat)arg0 , (cpFloat)arg1 , (cpFloat)arg2 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpFloat // Ret value: cpFloat bool JSB_cpfclamp01(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpfclamp01((cpFloat)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpFloat, cpFloat, cpFloat // Ret value: cpFloat bool JSB_cpflerp(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double arg0 = 0; double arg1 = 0; double arg2 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpflerp((cpFloat)arg0 , (cpFloat)arg1 , (cpFloat)arg2 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpFloat, cpFloat, cpFloat // Ret value: cpFloat bool JSB_cpflerpconst(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double arg0 = 0; double arg1 = 0; double arg2 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpflerpconst((cpFloat)arg0 , (cpFloat)arg1 , (cpFloat)arg2 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpFloat, cpFloat // Ret value: cpFloat bool JSB_cpfmax(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double arg0 = 0; double arg1 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpfmax((cpFloat)arg0 , (cpFloat)arg1 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpFloat, cpFloat // Ret value: cpFloat bool JSB_cpfmin(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double arg0 = 0; double arg1 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpfmin((cpFloat)arg0 , (cpFloat)arg1 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpVect, cpVect // Ret value: cpVect bool JSB_cpvadd(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvadd((cpVect)arg0 , (cpVect)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect, cpFloat // Ret value: cpVect bool JSB_cpvclamp(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; double arg1 = 0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvclamp((cpVect)arg0 , (cpFloat)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect, cpVect // Ret value: cpFloat bool JSB_cpvcross(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpvcross((cpVect)arg0 , (cpVect)arg1 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpVect, cpVect // Ret value: cpFloat bool JSB_cpvdist(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpvdist((cpVect)arg0 , (cpVect)arg1 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpVect, cpVect // Ret value: cpFloat bool JSB_cpvdistsq(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpvdistsq((cpVect)arg0 , (cpVect)arg1 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpVect, cpVect // Ret value: cpFloat bool JSB_cpvdot(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpvdot((cpVect)arg0 , (cpVect)arg1 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpVect, cpVect // Ret value: cpBool bool JSB_cpveql(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpveql((cpVect)arg0 , (cpVect)arg1 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpFloat // Ret value: cpVect bool JSB_cpvforangle(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvforangle((cpFloat)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect // Ret value: cpFloat bool JSB_cpvlength(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpvlength((cpVect)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpVect // Ret value: cpFloat bool JSB_cpvlengthsq(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpvlengthsq((cpVect)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpVect, cpVect, cpFloat // Ret value: cpVect bool JSB_cpvlerp(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; double arg2 = 0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvlerp((cpVect)arg0 , (cpVect)arg1 , (cpFloat)arg2 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect, cpVect, cpFloat // Ret value: cpVect bool JSB_cpvlerpconst(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; double arg2 = 0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvlerpconst((cpVect)arg0 , (cpVect)arg1 , (cpFloat)arg2 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect, cpFloat // Ret value: cpVect bool JSB_cpvmult(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; double arg1 = 0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= JS::ToNumber( cx, args.get(1), &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvmult((cpVect)arg0 , (cpFloat)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect, cpVect, cpFloat // Ret value: cpBool bool JSB_cpvnear(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; double arg2 = 0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpBool ret_val; ret_val = cpvnear((cpVect)arg0 , (cpVect)arg1 , (cpFloat)arg2 ); args.rval().set(INT_TO_JSVAL((int32_t)ret_val)); return true; } // Arguments: cpVect // Ret value: cpVect bool JSB_cpvneg(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvneg((cpVect)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect // Ret value: cpVect bool JSB_cpvnormalize(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvnormalize((cpVect)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect // Ret value: cpVect bool JSB_cpvnormalize_safe(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvnormalize_safe((cpVect)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect // Ret value: cpVect bool JSB_cpvperp(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvperp((cpVect)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect, cpVect // Ret value: cpVect bool JSB_cpvproject(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvproject((cpVect)arg0 , (cpVect)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect, cpVect // Ret value: cpVect bool JSB_cpvrotate(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvrotate((cpVect)arg0 , (cpVect)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect // Ret value: cpVect bool JSB_cpvrperp(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvrperp((cpVect)arg0 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect, cpVect, cpFloat // Ret value: cpVect bool JSB_cpvslerp(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; double arg2 = 0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvslerp((cpVect)arg0 , (cpVect)arg1 , (cpFloat)arg2 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect, cpVect, cpFloat // Ret value: cpVect bool JSB_cpvslerpconst(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 3, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; double arg2 = 0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); ok &= JS::ToNumber( cx, args.get(2), &arg2 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvslerpconst((cpVect)arg0 , (cpVect)arg1 , (cpFloat)arg2 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect, cpVect // Ret value: cpVect bool JSB_cpvsub(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvsub((cpVect)arg0 , (cpVect)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } // Arguments: cpVect // Ret value: cpFloat bool JSB_cpvtoangle(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpFloat ret_val = 0; ret_val = cpvtoangle((cpVect)arg0 ); args.rval().set(DOUBLE_TO_JSVAL(ret_val)); return true; } // Arguments: cpVect, cpVect // Ret value: cpVect bool JSB_cpvunrotate(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 2, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect arg0; cpVect arg1; ok &= jsval_to_cpVect( cx, args.get(0), (cpVect*) &arg0 ); ok &= jsval_to_cpVect( cx, args.get(1), (cpVect*) &arg1 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpVect ret_val; ret_val = cpvunrotate((cpVect)arg0 , (cpVect)arg1 ); jsval ret_jsval = cpVect_to_jsval( cx, (cpVect)ret_val ); args.rval().set(ret_jsval); return true; } #endif // JSB_INCLUDE_CHIPMUNK