#include using namespace metal; struct BST { int data; int leftIndex; int rightIndex; }; struct buf0 { /* 0x0000 */ float2 injectionSwitch; }; struct tint_array_wrapper { BST arr[10]; }; struct main_out { float4 x_GLF_color_1; }; struct tint_symbol_1 { float4 x_GLF_color_1 [[color(0)]]; }; void makeTreeNode_struct_BST_i1_i1_i11_i1_(thread BST* const tree, thread int* const data) { int const x_165 = *(data); (*(tree)).data = x_165; (*(tree)).leftIndex = -1; (*(tree)).rightIndex = -1; return; } void insert_i1_i1_(constant buf0& x_16, thread int* const treeIndex, thread int* const data_1, thread tint_array_wrapper* const tint_symbol_3) { int baseIndex = 0; BST param = {}; int param_1 = 0; int x_170 = 0; BST param_2 = {}; int param_3 = 0; baseIndex = 0; while (true) { int const x_175 = baseIndex; int const x_176 = *(treeIndex); if ((x_175 <= x_176)) { } else { break; } int const x_179 = *(data_1); int const x_180 = baseIndex; int const x_182 = (*(tint_symbol_3)).arr[x_180].data; if ((x_179 <= x_182)) { int const x_187 = baseIndex; int const x_189 = (*(tint_symbol_3)).arr[x_187].leftIndex; if ((x_189 == -1)) { int const x_194 = baseIndex; int const x_195 = *(treeIndex); (*(tint_symbol_3)).arr[x_194].leftIndex = x_195; float const x_198 = x_16.injectionSwitch.x; float const x_200 = x_16.injectionSwitch.y; if ((x_198 < x_200)) { int const x_204 = *(treeIndex); BST const x_206 = (*(tint_symbol_3)).arr[x_204]; param = x_206; int const x_207 = *(data_1); param_1 = x_207; makeTreeNode_struct_BST_i1_i1_i11_i1_(&(param), &(param_1)); BST const x_209 = param; (*(tint_symbol_3)).arr[x_204] = x_209; } float const x_212 = x_16.injectionSwitch.x; float const x_214 = x_16.injectionSwitch.y; if ((x_212 < x_214)) { return; } } else { int const x_218 = baseIndex; int const x_220 = (*(tint_symbol_3)).arr[x_218].leftIndex; baseIndex = x_220; continue; } } else { float const x_222 = x_16.injectionSwitch.x; float const x_224 = x_16.injectionSwitch.y; if ((x_222 < x_224)) { int const x_229 = baseIndex; int const x_231 = (*(tint_symbol_3)).arr[x_229].rightIndex; x_170 = x_231; } else { int const x_232 = baseIndex; int const x_234 = (*(tint_symbol_3)).arr[x_232].rightIndex; x_170 = x_234; } int const x_235 = x_170; if ((x_235 == -1)) { int const x_240 = baseIndex; int const x_241 = *(treeIndex); (*(tint_symbol_3)).arr[x_240].rightIndex = x_241; int const x_243 = *(treeIndex); BST const x_245 = (*(tint_symbol_3)).arr[x_243]; param_2 = x_245; int const x_246 = *(data_1); param_3 = x_246; makeTreeNode_struct_BST_i1_i1_i11_i1_(&(param_2), &(param_3)); BST const x_248 = param_2; (*(tint_symbol_3)).arr[x_243] = x_248; return; } else { int const x_250 = baseIndex; int const x_252 = (*(tint_symbol_3)).arr[x_250].rightIndex; baseIndex = x_252; continue; } return; } float const x_254 = x_16.injectionSwitch.x; float const x_256 = x_16.injectionSwitch.y; if ((x_254 > x_256)) { return; } } return; } int search_i1_(thread int* const target, thread tint_array_wrapper* const tint_symbol_4) { int index = 0; BST currentNode = {}; int x_261 = 0; index = 0; while (true) { int const x_266 = index; if ((x_266 != -1)) { } else { break; } int const x_269 = index; BST const x_271 = (*(tint_symbol_4)).arr[x_269]; currentNode = x_271; int const x_273 = currentNode.data; int const x_274 = *(target); if ((x_273 == x_274)) { int const x_278 = *(target); return x_278; } int const x_279 = *(target); int const x_281 = currentNode.data; if ((x_279 > x_281)) { int const x_287 = currentNode.rightIndex; x_261 = x_287; } else { int const x_289 = currentNode.leftIndex; x_261 = x_289; } int const x_290 = x_261; index = x_290; } return -1; } void main_1(constant buf0& x_16, thread tint_array_wrapper* const tint_symbol_5, thread float4* const tint_symbol_6) { int treeIndex_1 = 0; BST param_4 = {}; int param_5 = 0; int param_6 = 0; int param_7 = 0; int param_8 = 0; int param_9 = 0; int param_10 = 0; int param_11 = 0; int param_12 = 0; int param_13 = 0; int param_14 = 0; int param_15 = 0; int param_16 = 0; int param_17 = 0; int param_18 = 0; int param_19 = 0; int param_20 = 0; int param_21 = 0; int param_22 = 0; int param_23 = 0; int count = 0; int i = 0; int result = 0; int param_24 = 0; treeIndex_1 = 0; BST const x_91 = (*(tint_symbol_5)).arr[0]; param_4 = x_91; param_5 = 9; makeTreeNode_struct_BST_i1_i1_i11_i1_(&(param_4), &(param_5)); BST const x_93 = param_4; (*(tint_symbol_5)).arr[0] = x_93; int const x_95 = treeIndex_1; treeIndex_1 = as_type((as_type(x_95) + as_type(1))); int const x_97 = treeIndex_1; param_6 = x_97; param_7 = 5; insert_i1_i1_(x_16, &(param_6), &(param_7), tint_symbol_5); int const x_99 = treeIndex_1; treeIndex_1 = as_type((as_type(x_99) + as_type(1))); int const x_101 = treeIndex_1; param_8 = x_101; param_9 = 12; insert_i1_i1_(x_16, &(param_8), &(param_9), tint_symbol_5); int const x_103 = treeIndex_1; treeIndex_1 = as_type((as_type(x_103) + as_type(1))); int const x_105 = treeIndex_1; param_10 = x_105; param_11 = 15; insert_i1_i1_(x_16, &(param_10), &(param_11), tint_symbol_5); int const x_107 = treeIndex_1; treeIndex_1 = as_type((as_type(x_107) + as_type(1))); int const x_109 = treeIndex_1; param_12 = x_109; param_13 = 7; insert_i1_i1_(x_16, &(param_12), &(param_13), tint_symbol_5); int const x_111 = treeIndex_1; treeIndex_1 = as_type((as_type(x_111) + as_type(1))); int const x_113 = treeIndex_1; param_14 = x_113; param_15 = 8; insert_i1_i1_(x_16, &(param_14), &(param_15), tint_symbol_5); int const x_115 = treeIndex_1; treeIndex_1 = as_type((as_type(x_115) + as_type(1))); int const x_117 = treeIndex_1; param_16 = x_117; param_17 = 2; insert_i1_i1_(x_16, &(param_16), &(param_17), tint_symbol_5); int const x_119 = treeIndex_1; treeIndex_1 = as_type((as_type(x_119) + as_type(1))); int const x_121 = treeIndex_1; param_18 = x_121; param_19 = 6; insert_i1_i1_(x_16, &(param_18), &(param_19), tint_symbol_5); int const x_123 = treeIndex_1; treeIndex_1 = as_type((as_type(x_123) + as_type(1))); int const x_125 = treeIndex_1; param_20 = x_125; param_21 = 17; insert_i1_i1_(x_16, &(param_20), &(param_21), tint_symbol_5); int const x_127 = treeIndex_1; treeIndex_1 = as_type((as_type(x_127) + as_type(1))); int const x_129 = treeIndex_1; param_22 = x_129; param_23 = 13; insert_i1_i1_(x_16, &(param_22), &(param_23), tint_symbol_5); count = 0; i = 0; while (true) { int const x_135 = i; if ((x_135 < 20)) { } else { break; } int const x_138 = i; param_24 = x_138; int const x_139 = search_i1_(&(param_24), tint_symbol_5); result = x_139; int const x_140 = i; switch(x_140) { case 2: case 5: case 6: case 7: case 8: case 9: case 12: case 13: case 15: case 17: { int const x_150 = result; int const x_151 = i; if ((x_150 == x_151)) { int const x_155 = count; count = as_type((as_type(x_155) + as_type(1))); } break; } default: { int const x_144 = result; if ((x_144 == -1)) { int const x_148 = count; count = as_type((as_type(x_148) + as_type(1))); } break; } } { int const x_157 = i; i = as_type((as_type(x_157) + as_type(1))); } } int const x_159 = count; if ((x_159 == 20)) { *(tint_symbol_6) = float4(1.0f, 0.0f, 0.0f, 1.0f); } else { *(tint_symbol_6) = float4(0.0f, 0.0f, 1.0f, 1.0f); } return; } main_out tint_symbol_inner(constant buf0& x_16, thread tint_array_wrapper* const tint_symbol_7, thread float4* const tint_symbol_8) { main_1(x_16, tint_symbol_7, tint_symbol_8); main_out const tint_symbol_2 = {.x_GLF_color_1=*(tint_symbol_8)}; return tint_symbol_2; } fragment tint_symbol_1 tint_symbol(constant buf0& x_16 [[buffer(0)]]) { thread tint_array_wrapper tint_symbol_9 = {}; thread float4 tint_symbol_10 = 0.0f; main_out const inner_result = tint_symbol_inner(x_16, &(tint_symbol_9), &(tint_symbol_10)); tint_symbol_1 wrapper_result = {}; wrapper_result.x_GLF_color_1 = inner_result.x_GLF_color_1; return wrapper_result; }