; RUN: llvm-upgrade < %s | llvm-as | opt -instcombine -disable-output ; END. %struct.gs_matrix = type { float, int, float, int, float, int, float, int, float, int, float, int } %struct.gx_bitmap = type { ubyte*, int, int, int } %struct.gx_device = type { int, %struct.gx_device_procs*, sbyte*, int, int, float, float, int, ushort, int, int } %struct.gx_device_memory = type { int, %struct.gx_device_procs*, sbyte*, int, int, float, float, int, ushort, int, int, %struct.gs_matrix, int, ubyte*, ubyte**, int (%struct.gx_device_memory*, int, int, int, int, int)*, int, int, ubyte* } %struct.gx_device_procs = type { int (%struct.gx_device*)*, void (%struct.gx_device*, %struct.gs_matrix*)*, int (%struct.gx_device*)*, int (%struct.gx_device*)*, int (%struct.gx_device*)*, uint (%struct.gx_device*, ushort, ushort, ushort)*, int (%struct.gx_device*, uint, ushort*)*, int (%struct.gx_device*, int, int, int, int, uint)*, int (%struct.gx_device*, %struct.gx_bitmap*, int, int, int, int, uint, uint)*, int (%struct.gx_device*, ubyte*, int, int, int, int, int, int, uint, uint)*, int (%struct.gx_device*, ubyte*, int, int, int, int, int, int)*, int (%struct.gx_device*, int, int, int, int, uint)*, int (%struct.gx_device*, int, int, int, int, int, int, uint)*, int (%struct.gx_device*, %struct.gx_bitmap*, int, int, int, int, int, int, uint, uint)* } implementation ; Functions: int %mem_mono_copy_mono(%struct.gx_device* %dev, ubyte* %base, int %sourcex, int %raster, int %x, int %y, int %w, int %h, uint %zero, uint %one) { entry: %raster = cast int %raster to uint ; [#uses=3] %tmp = seteq uint %one, %zero ; [#uses=1] br bool %tmp, label %cond_true, label %cond_next cond_true: ; preds = %entry %tmp6 = tail call int %mem_mono_fill_rectangle( %struct.gx_device* %dev, int %x, int %y, int %w, int %h, uint %zero ) ; [#uses=1] ret int %tmp6 cond_next: ; preds = %entry %tmp8 = cast %struct.gx_device* %dev to %struct.gx_device_memory* ; <%struct.gx_device_memory*> [#uses=6] %tmp = getelementptr %struct.gx_device_memory* %tmp8, int 0, uint 15 ; [#uses=1] %tmp = load int (%struct.gx_device_memory*, int, int, int, int, int)** %tmp ; [#uses=2] %tmp9 = seteq int (%struct.gx_device_memory*, int, int, int, int, int)* %tmp, %mem_no_fault_proc ; [#uses=1] br bool %tmp9, label %cond_next46, label %cond_true10 cond_true10: ; preds = %cond_next %tmp16 = add int %x, 7 ; [#uses=1] %tmp17 = add int %tmp16, %w ; [#uses=1] %tmp18 = shr int %tmp17, ubyte 3 ; [#uses=1] %tmp20 = shr int %x, ubyte 3 ; [#uses=2] %tmp21 = sub int %tmp18, %tmp20 ; [#uses=1] %tmp27 = tail call int %tmp( %struct.gx_device_memory* %tmp8, int %tmp20, int %y, int %tmp21, int %h, int 1 ) ; [#uses=2] %tmp29 = setlt int %tmp27, 0 ; [#uses=1] br bool %tmp29, label %cond_true30, label %cond_next46 cond_true30: ; preds = %cond_true10 %tmp41 = tail call int %mem_copy_mono_recover( %struct.gx_device* %dev, ubyte* %base, int %sourcex, int %raster, int %x, int %y, int %w, int %h, uint %zero, uint %one, int %tmp27 ) ; [#uses=1] ret int %tmp41 cond_next46: ; preds = %cond_true10, %cond_next %tmp48 = setgt int %w, 0 ; [#uses=1] %tmp53 = setgt int %h, 0 ; [#uses=1] %bothcond = and bool %tmp53, %tmp48 ; [#uses=1] br bool %bothcond, label %bb58, label %return bb58: ; preds = %cond_next46 %tmp60 = setlt int %x, 0 ; [#uses=1] br bool %tmp60, label %return, label %cond_next63 cond_next63: ; preds = %bb58 %tmp65 = getelementptr %struct.gx_device_memory* %tmp8, int 0, uint 3 ; [#uses=1] %tmp66 = load int* %tmp65 ; [#uses=1] %tmp68 = sub int %tmp66, %w ; [#uses=1] %tmp70 = setlt int %tmp68, %x ; [#uses=1] %tmp75 = setlt int %y, 0 ; [#uses=1] %bothcond1 = or bool %tmp70, %tmp75 ; [#uses=1] br bool %bothcond1, label %return, label %cond_next78 cond_next78: ; preds = %cond_next63 %tmp80 = getelementptr %struct.gx_device_memory* %tmp8, int 0, uint 4 ; [#uses=1] %tmp81 = load int* %tmp80 ; [#uses=1] %tmp83 = sub int %tmp81, %h ; [#uses=1] %tmp85 = setlt int %tmp83, %y ; [#uses=1] br bool %tmp85, label %return, label %bb91 bb91: ; preds = %cond_next78 %tmp93 = shr int %x, ubyte 3 ; [#uses=4] %tmp = getelementptr %struct.gx_device_memory* %tmp8, int 0, uint 14 ; [#uses=1] %tmp = load ubyte*** %tmp ; [#uses=1] %tmp96 = getelementptr ubyte** %tmp, int %y ; [#uses=4] %tmp98 = load ubyte** %tmp96 ; [#uses=1] %tmp100 = getelementptr ubyte* %tmp98, int %tmp93 ; [#uses=3] %tmp102 = shr int %sourcex, ubyte 3 ; [#uses=3] %tmp106 = and int %sourcex, 7 ; [#uses=1] %tmp107 = sub int 8, %tmp106 ; [#uses=4] %tmp109 = and int %x, 7 ; [#uses=3] %tmp110 = sub int 8, %tmp109 ; [#uses=8] %tmp112 = sub int 8, %tmp110 ; [#uses=1] %tmp112 = cast int %tmp112 to ubyte ; [#uses=1] %tmp113464 = shr uint 255, ubyte %tmp112 ; [#uses=4] %tmp116 = setgt int %tmp110, %w ; [#uses=1] %tmp132 = getelementptr %struct.gx_device_memory* %tmp8, int 0, uint 16 ; [#uses=2] br bool %tmp116, label %cond_true117, label %cond_false123 cond_true117: ; preds = %bb91 %tmp119 = cast int %w to ubyte ; [#uses=1] %tmp120 = shr uint %tmp113464, ubyte %tmp119 ; [#uses=1] %tmp122 = sub uint %tmp113464, %tmp120 ; [#uses=2] %tmp13315 = load int* %tmp132 ; [#uses=1] %tmp13416 = seteq int %tmp13315, 0 ; [#uses=1] br bool %tmp13416, label %cond_next151, label %cond_true135 cond_false123: ; preds = %bb91 %tmp126 = sub int %w, %tmp110 ; [#uses=1] %tmp126 = cast int %tmp126 to ubyte ; [#uses=1] %tmp127 = and ubyte %tmp126, 7 ; [#uses=1] %tmp128 = shr uint 255, ubyte %tmp127 ; [#uses=1] %tmp1295 = sub uint 255, %tmp128 ; [#uses=2] %tmp133 = load int* %tmp132 ; [#uses=1] %tmp134 = seteq int %tmp133, 0 ; [#uses=1] br bool %tmp134, label %cond_next151, label %cond_true135 cond_true135: ; preds = %cond_false123, %cond_true117 %rmask.0.0 = phi uint [ undef, %cond_true117 ], [ %tmp1295, %cond_false123 ] ; [#uses=2] %mask.1.0 = phi uint [ %tmp122, %cond_true117 ], [ %tmp113464, %cond_false123 ] ; [#uses=2] %not.tmp137 = setne uint %zero, 4294967295 ; [#uses=1] %tmp140 = cast bool %not.tmp137 to uint ; [#uses=1] %zero_addr.0 = xor uint %tmp140, %zero ; [#uses=2] %tmp144 = seteq uint %one, 4294967295 ; [#uses=1] br bool %tmp144, label %cond_next151, label %cond_true145 cond_true145: ; preds = %cond_true135 %tmp147 = xor uint %one, 1 ; [#uses=1] br label %cond_next151 cond_next151: ; preds = %cond_true145, %cond_true135, %cond_false123, %cond_true117 %rmask.0.1 = phi uint [ %rmask.0.0, %cond_true145 ], [ undef, %cond_true117 ], [ %tmp1295, %cond_false123 ], [ %rmask.0.0, %cond_true135 ] ; [#uses=4] %mask.1.1 = phi uint [ %mask.1.0, %cond_true145 ], [ %tmp122, %cond_true117 ], [ %tmp113464, %cond_false123 ], [ %mask.1.0, %cond_true135 ] ; [#uses=4] %one_addr.0 = phi uint [ %tmp147, %cond_true145 ], [ %one, %cond_true117 ], [ %one, %cond_false123 ], [ %one, %cond_true135 ] ; [#uses=2] %zero_addr.1 = phi uint [ %zero_addr.0, %cond_true145 ], [ %zero, %cond_true117 ], [ %zero, %cond_false123 ], [ %zero_addr.0, %cond_true135 ] ; [#uses=2] %tmp153 = seteq uint %zero_addr.1, 1 ; [#uses=2] %tmp158 = seteq uint %one_addr.0, 0 ; [#uses=2] %bothcond2 = or bool %tmp153, %tmp158 ; [#uses=1] %iftmp.35.0 = select bool %bothcond2, uint 4294967295, uint 0 ; [#uses=8] %tmp167 = seteq uint %zero_addr.1, 0 ; [#uses=1] %bothcond3 = or bool %tmp167, %tmp158 ; [#uses=1] %iftmp.36.0 = select bool %bothcond3, uint 0, uint 4294967295 ; [#uses=4] %tmp186 = seteq uint %one_addr.0, 1 ; [#uses=1] %bothcond4 = or bool %tmp153, %tmp186 ; [#uses=1] %iftmp.37.0 = select bool %bothcond4, uint 4294967295, uint 0 ; [#uses=6] %tmp196 = seteq int %tmp107, %tmp110 ; [#uses=1] br bool %tmp196, label %cond_true197, label %cond_false299 cond_true197: ; preds = %cond_next151 %tmp29222 = add int %h, -1 ; [#uses=3] %tmp29424 = setlt int %tmp29222, 0 ; [#uses=1] br bool %tmp29424, label %return, label %cond_true295.preheader cond_true249.preheader: ; preds = %cond_true295 br label %cond_true249 cond_true249: ; preds = %cond_true249, %cond_true249.preheader %indvar = phi uint [ 0, %cond_true249.preheader ], [ %indvar.next, %cond_true249 ] ; [#uses=2] %optr.3.2 = phi ubyte* [ %tmp232, %cond_true249 ], [ %dest.1.0, %cond_true249.preheader ] ; [#uses=1] %bptr.3.2 = phi ubyte* [ %tmp226, %cond_true249 ], [ %line.1.0, %cond_true249.preheader ] ; [#uses=1] %tmp. = add int %tmp109, %w ; [#uses=1] %indvar = cast uint %indvar to int ; [#uses=1] %tmp.58 = mul int %indvar, -8 ; [#uses=1] %tmp.57 = add int %tmp., -16 ; [#uses=1] %tmp246.2 = add int %tmp.58, %tmp.57 ; [#uses=1] %tmp225 = cast ubyte* %bptr.3.2 to uint ; [#uses=1] %tmp226 = add uint %tmp225, 1 ; [#uses=1] %tmp226 = cast uint %tmp226 to ubyte* ; [#uses=3] %tmp228 = load ubyte* %tmp226 ; [#uses=1] %tmp228 = cast ubyte %tmp228 to uint ; [#uses=1] %tmp230 = xor uint %tmp228, %iftmp.35.0 ; [#uses=2] %tmp231 = cast ubyte* %optr.3.2 to uint ; [#uses=1] %tmp232 = add uint %tmp231, 1 ; [#uses=1] %tmp232 = cast uint %tmp232 to ubyte* ; [#uses=4] %tmp235 = or uint %tmp230, %iftmp.36.0 ; [#uses=1] %tmp235 = cast uint %tmp235 to ubyte ; [#uses=1] %tmp237 = load ubyte* %tmp232 ; [#uses=1] %tmp238 = and ubyte %tmp235, %tmp237 ; [#uses=1] %tmp241 = and uint %tmp230, %iftmp.37.0 ; [#uses=1] %tmp241 = cast uint %tmp241 to ubyte ; [#uses=1] %tmp242 = or ubyte %tmp238, %tmp241 ; [#uses=1] store ubyte %tmp242, ubyte* %tmp232 %tmp24629 = add int %tmp246.2, -8 ; [#uses=2] %tmp24831 = setlt int %tmp24629, 0 ; [#uses=1] %indvar.next = add uint %indvar, 1 ; [#uses=1] br bool %tmp24831, label %bb252.loopexit, label %cond_true249 bb252.loopexit: ; preds = %cond_true249 br label %bb252 bb252: ; preds = %cond_true295, %bb252.loopexit %optr.3.3 = phi ubyte* [ %dest.1.0, %cond_true295 ], [ %tmp232, %bb252.loopexit ] ; [#uses=1] %bptr.3.3 = phi ubyte* [ %line.1.0, %cond_true295 ], [ %tmp226, %bb252.loopexit ] ; [#uses=1] %tmp246.3 = phi int [ %tmp246, %cond_true295 ], [ %tmp24629, %bb252.loopexit ] ; [#uses=1] %tmp254 = setgt int %tmp246.3, -8 ; [#uses=1] br bool %tmp254, label %cond_true255, label %cond_next280 cond_true255: ; preds = %bb252 %tmp256 = cast ubyte* %bptr.3.3 to uint ; [#uses=1] %tmp257 = add uint %tmp256, 1 ; [#uses=1] %tmp257 = cast uint %tmp257 to ubyte* ; [#uses=1] %tmp259 = load ubyte* %tmp257 ; [#uses=1] %tmp259 = cast ubyte %tmp259 to uint ; [#uses=1] %tmp261 = xor uint %tmp259, %iftmp.35.0 ; [#uses=2] %tmp262 = cast ubyte* %optr.3.3 to uint ; [#uses=1] %tmp263 = add uint %tmp262, 1 ; [#uses=1] %tmp263 = cast uint %tmp263 to ubyte* ; [#uses=2] %tmp265 = cast uint %tmp261 to ubyte ; [#uses=1] %tmp268 = or ubyte %tmp266, %tmp265 ; [#uses=1] %tmp270 = load ubyte* %tmp263 ; [#uses=1] %tmp271 = and ubyte %tmp268, %tmp270 ; [#uses=1] %tmp276 = and uint %tmp274, %tmp261 ; [#uses=1] %tmp276 = cast uint %tmp276 to ubyte ; [#uses=1] %tmp277 = or ubyte %tmp271, %tmp276 ; [#uses=1] store ubyte %tmp277, ubyte* %tmp263 br label %cond_next280 cond_next280: ; preds = %cond_true255, %bb252 %tmp281 = cast ubyte** %dest_line.1.0 to uint ; [#uses=1] %tmp282 = add uint %tmp281, 4 ; [#uses=1] %tmp282 = cast uint %tmp282 to ubyte** ; [#uses=2] %tmp284 = load ubyte** %tmp282 ; [#uses=1] %tmp286 = getelementptr ubyte* %tmp284, int %tmp93 ; [#uses=1] %tmp292 = add int %tmp292.0, -1 ; [#uses=1] %tmp294 = setlt int %tmp292, 0 ; [#uses=1] %indvar.next61 = add uint %indvar60, 1 ; [#uses=1] br bool %tmp294, label %return.loopexit, label %cond_true295 cond_true295.preheader: ; preds = %cond_true197 %tmp200 = sub int %w, %tmp110 ; [#uses=1] %tmp209 = cast uint %mask.1.1 to ubyte ; [#uses=1] %tmp209not = xor ubyte %tmp209, 255 ; [#uses=1] %tmp212 = cast uint %iftmp.36.0 to ubyte ; [#uses=2] %tmp211 = or ubyte %tmp212, %tmp209not ; [#uses=2] %tmp219 = and uint %iftmp.37.0, %mask.1.1 ; [#uses=2] %tmp246 = add int %tmp200, -8 ; [#uses=3] %tmp248 = setlt int %tmp246, 0 ; [#uses=1] %tmp264 = cast uint %rmask.0.1 to ubyte ; [#uses=1] %tmp264not = xor ubyte %tmp264, 255 ; [#uses=1] %tmp266 = or ubyte %tmp212, %tmp264not ; [#uses=2] %tmp274 = and uint %iftmp.37.0, %rmask.0.1 ; [#uses=2] br bool %tmp248, label %cond_true295.preheader.split.us, label %cond_true295.preheader.split cond_true295.preheader.split.us: ; preds = %cond_true295.preheader br label %cond_true295.us cond_true295.us: ; preds = %cond_next280.us, %cond_true295.preheader.split.us %indvar86 = phi uint [ 0, %cond_true295.preheader.split.us ], [ %indvar.next87, %cond_next280.us ] ; [#uses=3] %dest.1.0.us = phi ubyte* [ %tmp286.us, %cond_next280.us ], [ %tmp100, %cond_true295.preheader.split.us ] ; [#uses=3] %dest_line.1.0.us = phi ubyte** [ %tmp282.us, %cond_next280.us ], [ %tmp96, %cond_true295.preheader.split.us ] ; [#uses=1] %tmp.89 = sub uint 0, %indvar86 ; [#uses=1] %tmp.89 = cast uint %tmp.89 to int ; [#uses=1] %tmp292.0.us = add int %tmp.89, %tmp29222 ; [#uses=1] %tmp.91 = mul uint %indvar86, %raster ; [#uses=1] %tmp.91 = cast uint %tmp.91 to int ; [#uses=1] %tmp104.sum101 = add int %tmp102, %tmp.91 ; [#uses=1] %line.1.0.us = getelementptr ubyte* %base, int %tmp104.sum101 ; [#uses=2] %tmp.us = load ubyte* %line.1.0.us ; [#uses=1] %tmp206.us = cast ubyte %tmp.us to uint ; [#uses=1] %tmp208.us = xor uint %tmp206.us, %iftmp.35.0 ; [#uses=2] %tmp210.us = cast uint %tmp208.us to ubyte ; [#uses=1] %tmp213.us = or ubyte %tmp211, %tmp210.us ; [#uses=1] %tmp215.us = load ubyte* %dest.1.0.us ; [#uses=1] %tmp216.us = and ubyte %tmp213.us, %tmp215.us ; [#uses=1] %tmp221.us = and uint %tmp219, %tmp208.us ; [#uses=1] %tmp221.us = cast uint %tmp221.us to ubyte ; [#uses=1] %tmp222.us = or ubyte %tmp216.us, %tmp221.us ; [#uses=1] store ubyte %tmp222.us, ubyte* %dest.1.0.us br bool true, label %bb252.us, label %cond_true249.preheader.us cond_next280.us: ; preds = %bb252.us, %cond_true255.us %tmp281.us = cast ubyte** %dest_line.1.0.us to uint ; [#uses=1] %tmp282.us = add uint %tmp281.us, 4 ; [#uses=1] %tmp282.us = cast uint %tmp282.us to ubyte** ; [#uses=2] %tmp284.us = load ubyte** %tmp282.us ; [#uses=1] %tmp286.us = getelementptr ubyte* %tmp284.us, int %tmp93 ; [#uses=1] %tmp292.us = add int %tmp292.0.us, -1 ; [#uses=1] %tmp294.us = setlt int %tmp292.us, 0 ; [#uses=1] %indvar.next87 = add uint %indvar86, 1 ; [#uses=1] br bool %tmp294.us, label %return.loopexit.us, label %cond_true295.us cond_true255.us: ; preds = %bb252.us %tmp256.us = cast ubyte* %bptr.3.3.us to uint ; [#uses=1] %tmp257.us = add uint %tmp256.us, 1 ; [#uses=1] %tmp257.us = cast uint %tmp257.us to ubyte* ; [#uses=1] %tmp259.us = load ubyte* %tmp257.us ; [#uses=1] %tmp259.us = cast ubyte %tmp259.us to uint ; [#uses=1] %tmp261.us = xor uint %tmp259.us, %iftmp.35.0 ; [#uses=2] %tmp262.us = cast ubyte* %optr.3.3.us to uint ; [#uses=1] %tmp263.us = add uint %tmp262.us, 1 ; [#uses=1] %tmp263.us = cast uint %tmp263.us to ubyte* ; [#uses=2] %tmp265.us = cast uint %tmp261.us to ubyte ; [#uses=1] %tmp268.us = or ubyte %tmp266, %tmp265.us ; [#uses=1] %tmp270.us = load ubyte* %tmp263.us ; [#uses=1] %tmp271.us = and ubyte %tmp268.us, %tmp270.us ; [#uses=1] %tmp276.us = and uint %tmp274, %tmp261.us ; [#uses=1] %tmp276.us = cast uint %tmp276.us to ubyte ; [#uses=1] %tmp277.us = or ubyte %tmp271.us, %tmp276.us ; [#uses=1] store ubyte %tmp277.us, ubyte* %tmp263.us br label %cond_next280.us bb252.us: ; preds = %bb252.loopexit.us, %cond_true295.us %optr.3.3.us = phi ubyte* [ %dest.1.0.us, %cond_true295.us ], [ undef, %bb252.loopexit.us ] ; [#uses=1] %bptr.3.3.us = phi ubyte* [ %line.1.0.us, %cond_true295.us ], [ undef, %bb252.loopexit.us ] ; [#uses=1] %tmp246.3.us = phi int [ %tmp246, %cond_true295.us ], [ undef, %bb252.loopexit.us ] ; [#uses=1] %tmp254.us = setgt int %tmp246.3.us, -8 ; [#uses=1] br bool %tmp254.us, label %cond_true255.us, label %cond_next280.us cond_true249.us: ; preds = %cond_true249.preheader.us, %cond_true249.us br bool undef, label %bb252.loopexit.us, label %cond_true249.us cond_true249.preheader.us: ; preds = %cond_true295.us br label %cond_true249.us bb252.loopexit.us: ; preds = %cond_true249.us br label %bb252.us return.loopexit.us: ; preds = %cond_next280.us br label %return.loopexit.split cond_true295.preheader.split: ; preds = %cond_true295.preheader br label %cond_true295 cond_true295: ; preds = %cond_true295.preheader.split, %cond_next280 %indvar60 = phi uint [ 0, %cond_true295.preheader.split ], [ %indvar.next61, %cond_next280 ] ; [#uses=3] %dest.1.0 = phi ubyte* [ %tmp286, %cond_next280 ], [ %tmp100, %cond_true295.preheader.split ] ; [#uses=4] %dest_line.1.0 = phi ubyte** [ %tmp282, %cond_next280 ], [ %tmp96, %cond_true295.preheader.split ] ; [#uses=1] %tmp.63 = sub uint 0, %indvar60 ; [#uses=1] %tmp.63 = cast uint %tmp.63 to int ; [#uses=1] %tmp292.0 = add int %tmp.63, %tmp29222 ; [#uses=1] %tmp.65 = mul uint %indvar60, %raster ; [#uses=1] %tmp.65 = cast uint %tmp.65 to int ; [#uses=1] %tmp104.sum97 = add int %tmp102, %tmp.65 ; [#uses=1] %line.1.0 = getelementptr ubyte* %base, int %tmp104.sum97 ; [#uses=3] %tmp = load ubyte* %line.1.0 ; [#uses=1] %tmp206 = cast ubyte %tmp to uint ; [#uses=1] %tmp208 = xor uint %tmp206, %iftmp.35.0 ; [#uses=2] %tmp210 = cast uint %tmp208 to ubyte ; [#uses=1] %tmp213 = or ubyte %tmp211, %tmp210 ; [#uses=1] %tmp215 = load ubyte* %dest.1.0 ; [#uses=1] %tmp216 = and ubyte %tmp213, %tmp215 ; [#uses=1] %tmp221 = and uint %tmp219, %tmp208 ; [#uses=1] %tmp221 = cast uint %tmp221 to ubyte ; [#uses=1] %tmp222 = or ubyte %tmp216, %tmp221 ; [#uses=1] store ubyte %tmp222, ubyte* %dest.1.0 br bool false, label %bb252, label %cond_true249.preheader cond_false299: ; preds = %cond_next151 %tmp302 = sub int %tmp107, %tmp110 ; [#uses=1] %tmp303 = and int %tmp302, 7 ; [#uses=3] %tmp305 = sub int 8, %tmp303 ; [#uses=1] %tmp45438 = add int %h, -1 ; [#uses=2] %tmp45640 = setlt int %tmp45438, 0 ; [#uses=1] br bool %tmp45640, label %return, label %cond_true457.preheader cond_true316: ; preds = %cond_true457 %tmp318 = cast ubyte %tmp318 to uint ; [#uses=1] %tmp320 = shr uint %tmp318, ubyte %tmp319 ; [#uses=1] br label %cond_next340 cond_false321: ; preds = %cond_true457 %tmp3188 = cast ubyte %tmp318 to uint ; [#uses=1] %tmp325 = shl uint %tmp3188, ubyte %tmp324 ; [#uses=2] %tmp326 = cast ubyte* %line.3.0 to uint ; [#uses=1] %tmp327 = add uint %tmp326, 1 ; [#uses=1] %tmp327 = cast uint %tmp327 to ubyte* ; [#uses=3] br bool %tmp330, label %cond_true331, label %cond_next340 cond_true331: ; preds = %cond_false321 %tmp333 = load ubyte* %tmp327 ; [#uses=1] %tmp333 = cast ubyte %tmp333 to uint ; [#uses=1] %tmp335 = shr uint %tmp333, ubyte %tmp319 ; [#uses=1] %tmp337 = add uint %tmp335, %tmp325 ; [#uses=1] br label %cond_next340 cond_next340: ; preds = %cond_true331, %cond_false321, %cond_true316 %bits.0 = phi uint [ %tmp320, %cond_true316 ], [ %tmp337, %cond_true331 ], [ %tmp325, %cond_false321 ] ; [#uses=1] %bptr307.3 = phi ubyte* [ %line.3.0, %cond_true316 ], [ %tmp327, %cond_true331 ], [ %tmp327, %cond_false321 ] ; [#uses=2] %tmp343 = xor uint %bits.0, %iftmp.35.0 ; [#uses=2] %tmp345 = cast uint %tmp343 to ubyte ; [#uses=1] %tmp348 = or ubyte %tmp346, %tmp345 ; [#uses=1] %tmp350 = load ubyte* %dest.3.0 ; [#uses=1] %tmp351 = and ubyte %tmp348, %tmp350 ; [#uses=1] %tmp356 = and uint %tmp354, %tmp343 ; [#uses=1] %tmp356 = cast uint %tmp356 to ubyte ; [#uses=1] %tmp357 = or ubyte %tmp351, %tmp356 ; [#uses=1] store ubyte %tmp357, ubyte* %dest.3.0 %tmp362 = cast ubyte* %dest.3.0 to uint ; [#uses=1] %optr309.3.in51 = add uint %tmp362, 1 ; [#uses=2] %optr309.353 = cast uint %optr309.3.in51 to ubyte* ; [#uses=2] br bool %tmp39755, label %cond_true398.preheader, label %bb401 cond_true398.preheader: ; preds = %cond_next340 br label %cond_true398 cond_true398: ; preds = %cond_true398, %cond_true398.preheader %indvar66 = phi uint [ 0, %cond_true398.preheader ], [ %indvar.next67, %cond_true398 ] ; [#uses=3] %bptr307.4.0 = phi ubyte* [ %tmp370, %cond_true398 ], [ %bptr307.3, %cond_true398.preheader ] ; [#uses=2] %optr309.3.0 = phi ubyte* [ %optr309.3, %cond_true398 ], [ %optr309.353, %cond_true398.preheader ] ; [#uses=2] %optr309.3.in.0 = add uint %indvar66, %optr309.3.in51 ; [#uses=1] %tmp.70 = add int %tmp109, %w ; [#uses=1] %indvar66 = cast uint %indvar66 to int ; [#uses=1] %tmp.72 = mul int %indvar66, -8 ; [#uses=1] %tmp.71 = add int %tmp.70, -8 ; [#uses=1] %count308.3.0 = add int %tmp.72, %tmp.71 ; [#uses=1] %tmp366 = load ubyte* %bptr307.4.0 ; [#uses=1] %tmp366 = cast ubyte %tmp366 to uint ; [#uses=1] %tmp369 = cast ubyte* %bptr307.4.0 to uint ; [#uses=1] %tmp370 = add uint %tmp369, 1 ; [#uses=1] %tmp370 = cast uint %tmp370 to ubyte* ; [#uses=3] %tmp372 = load ubyte* %tmp370 ; [#uses=1] %tmp372 = cast ubyte %tmp372 to uint ; [#uses=1] %tmp374463 = shr uint %tmp372, ubyte %tmp319 ; [#uses=1] %tmp368 = shl uint %tmp366, ubyte %tmp324 ; [#uses=1] %tmp377 = add uint %tmp374463, %tmp368 ; [#uses=1] %tmp379 = xor uint %tmp377, %iftmp.35.0 ; [#uses=2] %tmp382 = or uint %tmp379, %iftmp.36.0 ; [#uses=1] %tmp382 = cast uint %tmp382 to ubyte ; [#uses=1] %tmp384 = load ubyte* %optr309.3.0 ; [#uses=1] %tmp385 = and ubyte %tmp382, %tmp384 ; [#uses=1] %tmp388 = and uint %tmp379, %iftmp.37.0 ; [#uses=1] %tmp388 = cast uint %tmp388 to ubyte ; [#uses=1] %tmp389 = or ubyte %tmp385, %tmp388 ; [#uses=1] store ubyte %tmp389, ubyte* %optr309.3.0 %tmp392 = add int %count308.3.0, -8 ; [#uses=2] %optr309.3.in = add uint %optr309.3.in.0, 1 ; [#uses=1] %optr309.3 = cast uint %optr309.3.in to ubyte* ; [#uses=2] %tmp397 = setgt int %tmp392, 7 ; [#uses=1] %indvar.next67 = add uint %indvar66, 1 ; [#uses=1] br bool %tmp397, label %cond_true398, label %bb401.loopexit bb401.loopexit: ; preds = %cond_true398 br label %bb401 bb401: ; preds = %bb401.loopexit, %cond_next340 %count308.3.1 = phi int [ %tmp361, %cond_next340 ], [ %tmp392, %bb401.loopexit ] ; [#uses=2] %bptr307.4.1 = phi ubyte* [ %bptr307.3, %cond_next340 ], [ %tmp370, %bb401.loopexit ] ; [#uses=2] %optr309.3.1 = phi ubyte* [ %optr309.353, %cond_next340 ], [ %optr309.3, %bb401.loopexit ] ; [#uses=2] %tmp403 = setgt int %count308.3.1, 0 ; [#uses=1] br bool %tmp403, label %cond_true404, label %cond_next442 cond_true404: ; preds = %bb401 %tmp406 = load ubyte* %bptr307.4.1 ; [#uses=1] %tmp406 = cast ubyte %tmp406 to int ; [#uses=1] %tmp408 = shl int %tmp406, ubyte %tmp324 ; [#uses=2] %tmp413 = setgt int %count308.3.1, %tmp303 ; [#uses=1] br bool %tmp413, label %cond_true414, label %cond_next422 cond_true414: ; preds = %cond_true404 %tmp409 = cast ubyte* %bptr307.4.1 to uint ; [#uses=1] %tmp410 = add uint %tmp409, 1 ; [#uses=1] %tmp410 = cast uint %tmp410 to ubyte* ; [#uses=1] %tmp416 = load ubyte* %tmp410 ; [#uses=1] %tmp416 = cast ubyte %tmp416 to uint ; [#uses=1] %tmp418 = shr uint %tmp416, ubyte %tmp319 ; [#uses=1] %tmp418 = cast uint %tmp418 to int ; [#uses=1] %tmp420 = add int %tmp418, %tmp408 ; [#uses=1] br label %cond_next422 cond_next422: ; preds = %cond_true414, %cond_true404 %bits.6 = phi int [ %tmp420, %cond_true414 ], [ %tmp408, %cond_true404 ] ; [#uses=1] %tmp425 = xor int %bits.6, %iftmp.35.0 ; [#uses=1] %tmp427 = cast int %tmp425 to ubyte ; [#uses=2] %tmp430 = or ubyte %tmp428, %tmp427 ; [#uses=1] %tmp432 = load ubyte* %optr309.3.1 ; [#uses=1] %tmp433 = and ubyte %tmp430, %tmp432 ; [#uses=1] %tmp438 = and ubyte %tmp436, %tmp427 ; [#uses=1] %tmp439 = or ubyte %tmp433, %tmp438 ; [#uses=1] store ubyte %tmp439, ubyte* %optr309.3.1 br label %cond_next442 cond_next442: ; preds = %cond_next422, %bb401 %tmp443 = cast ubyte** %dest_line.3.0 to uint ; [#uses=1] %tmp444 = add uint %tmp443, 4 ; [#uses=1] %tmp444 = cast uint %tmp444 to ubyte** ; [#uses=2] %tmp446 = load ubyte** %tmp444 ; [#uses=1] %tmp448 = getelementptr ubyte* %tmp446, int %tmp93 ; [#uses=1] %tmp454 = add int %tmp454.0, -1 ; [#uses=1] %tmp456 = setlt int %tmp454, 0 ; [#uses=1] %indvar.next75 = add uint %indvar74, 1 ; [#uses=1] br bool %tmp456, label %return.loopexit56, label %cond_true457 cond_true457.preheader: ; preds = %cond_false299 %tmp315 = setlt int %tmp107, %tmp110 ; [#uses=1] %tmp319 = cast int %tmp303 to ubyte ; [#uses=4] %tmp324 = cast int %tmp305 to ubyte ; [#uses=3] %tmp330 = setlt int %tmp107, %w ; [#uses=1] %tmp344 = cast uint %mask.1.1 to ubyte ; [#uses=1] %tmp344not = xor ubyte %tmp344, 255 ; [#uses=1] %tmp347 = cast uint %iftmp.36.0 to ubyte ; [#uses=2] %tmp346 = or ubyte %tmp347, %tmp344not ; [#uses=1] %tmp354 = and uint %iftmp.37.0, %mask.1.1 ; [#uses=1] %tmp361 = sub int %w, %tmp110 ; [#uses=2] %tmp39755 = setgt int %tmp361, 7 ; [#uses=1] %iftmp.35.0 = cast uint %iftmp.35.0 to int ; [#uses=1] %tmp426 = cast uint %rmask.0.1 to ubyte ; [#uses=1] %tmp426not = xor ubyte %tmp426, 255 ; [#uses=1] %tmp428 = or ubyte %tmp347, %tmp426not ; [#uses=1] %tmp436 = and uint %iftmp.37.0, %rmask.0.1 ; [#uses=1] %tmp436 = cast uint %tmp436 to ubyte ; [#uses=1] br label %cond_true457 cond_true457: ; preds = %cond_true457.preheader, %cond_next442 %indvar74 = phi uint [ 0, %cond_true457.preheader ], [ %indvar.next75, %cond_next442 ] ; [#uses=3] %dest.3.0 = phi ubyte* [ %tmp448, %cond_next442 ], [ %tmp100, %cond_true457.preheader ] ; [#uses=3] %dest_line.3.0 = phi ubyte** [ %tmp444, %cond_next442 ], [ %tmp96, %cond_true457.preheader ] ; [#uses=1] %tmp.77 = sub uint 0, %indvar74 ; [#uses=1] %tmp.77 = cast uint %tmp.77 to int ; [#uses=1] %tmp454.0 = add int %tmp.77, %tmp45438 ; [#uses=1] %tmp.79 = mul uint %indvar74, %raster ; [#uses=1] %tmp.79 = cast uint %tmp.79 to int ; [#uses=1] %tmp104.sum = add int %tmp102, %tmp.79 ; [#uses=1] %line.3.0 = getelementptr ubyte* %base, int %tmp104.sum ; [#uses=3] %tmp318 = load ubyte* %line.3.0 ; [#uses=2] br bool %tmp315, label %cond_false321, label %cond_true316 return.loopexit: ; preds = %cond_next280 br label %return.loopexit.split return.loopexit.split: ; preds = %return.loopexit, %return.loopexit.us br label %return return.loopexit56: ; preds = %cond_next442 br label %return return: ; preds = %return.loopexit56, %return.loopexit.split, %cond_false299, %cond_true197, %cond_next78, %cond_next63, %bb58, %cond_next46 %retval.0 = phi int [ 0, %cond_next46 ], [ -1, %bb58 ], [ -1, %cond_next63 ], [ -1, %cond_next78 ], [ 0, %cond_true197 ], [ 0, %cond_false299 ], [ 0, %return.loopexit.split ], [ 0, %return.loopexit56 ] ; [#uses=1] ret int %retval.0 } declare int %mem_no_fault_proc(%struct.gx_device_memory*, int, int, int, int, int) declare int %mem_mono_fill_rectangle(%struct.gx_device*, int, int, int, int, uint) declare int %mem_copy_mono_recover(%struct.gx_device*, ubyte*, int, int, int, int, int, int, uint, uint, int)