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| 1 | #include "MPOD.h" |
1 | #include "MPOD.h" |
| - | 2 | #include <utility.h> |
|
| 2 | #include "HVtest_ui.h" |
3 | #include "HVtest_ui.h" |
| 3 | 4 | ||
| 4 | #define HVSLOT 3 |
5 | #define HVSLOT 3 |
| 5 | 6 | ||
| 6 | static int p1h, pID, rID, tfID; |
7 | static int p1h, pID, rID, tfID; |
| Line 12... | Line 13... | ||
| 12 | } |
13 | } |
| 13 | 14 | ||
| 14 | int __stdcall WinMain (HINSTANCE hInstance, HINSTANCE hPrevInstance, |
15 | int __stdcall WinMain (HINSTANCE hInstance, HINSTANCE hPrevInstance, |
| 15 | LPSTR lpszCmdLine, int nCmdShow) { |
16 | LPSTR lpszCmdLine, int nCmdShow) { |
| 16 | 17 | ||
| 17 | const int mo= |
18 | const int mo=HVSLOT; |
| 18 | const int ch0=100*mo; |
19 | const int ch0=100*mo; |
| 19 | 20 | ||
| 20 | int mainonoff,HVonoffall; |
21 | int mainonoff,HVonoffall; |
| 21 | int HVonoff[4],HVonoff_rID[4]={P1_HVonoff_0,P1_HVonoff_1,P1_HVonoff_2,P1_HVonoff_3}; |
22 | int HVonoff[4],HVonoff_rID[4]={P1_HVonoff_0,P1_HVonoff_1,P1_HVonoff_2,P1_HVonoff_3}; |
| 22 | int HVvdis_rID[4]={P1_HVvdis_0,P1_HVvdis_1,P1_HVvdis_2,P1_HVvdis_3}; |
23 | int HVvdis_rID[4]={P1_HVvdis_0,P1_HVvdis_1,P1_HVvdis_2,P1_HVvdis_3}; |
| Line 69... | Line 70... | ||
| 69 | } |
70 | } |
| 70 | HVvset[0]=getOutputVoltage(crate1,ch0); |
71 | HVvset[0]=getOutputVoltage(crate1,ch0); |
| 71 | SetCtrlVal (p1h, P1_HVvset, HVvset[0]); |
72 | SetCtrlVal (p1h, P1_HVvset, HVvset[0]); |
| 72 | HVcset[0]=1e+6*getOutputCurrent(crate1,ch0); |
73 | HVcset[0]=1e+6*getOutputCurrent(crate1,ch0); |
| 73 | SetCtrlVal (p1h, P1_HVcset, HVcset[0]); |
74 | SetCtrlVal (p1h, P1_HVcset, HVcset[0]); |
| - | 75 | SetAxisScalingMode (p1h, P1_G1, VAL_LEFT_YAXIS, VAL_MANUAL, -(HVcset[0]+1), 1.); |
|
| 74 | HVvrise=getModuleRampSpeedVoltage(crate1,mo); |
76 | HVvrise=getModuleRampSpeedVoltage(crate1,mo); |
| 75 | SetCtrlVal (p1h, P1_HVvrise, HVvrise); |
77 | SetCtrlVal (p1h, P1_HVvrise, HVvrise); |
| 76 | // vfall[0]=abs(getOutputFallRate(crate1,ch)); |
78 | // vfall[0]=abs(getOutputFallRate(crate1,ch)); |
| 77 | // SetCtrlVal (p1h, P1_VFA0, vfall[0]); |
79 | // SetCtrlVal (p1h, P1_VFA0, vfall[0]); |
| 78 | } |
80 | } |
| Line 92... | Line 94... | ||
| 92 | for (i=0;i<4;i++) { |
94 | for (i=0;i<4;i++) { |
| 93 | HVvdis[i]=getOutputTerminalMeasurement(crate1, ch0+i); |
95 | HVvdis[i]=getOutputTerminalMeasurement(crate1, ch0+i); |
| 94 | SetCtrlVal (p1h, HVvdis_rID[i], HVvdis[i]); |
96 | SetCtrlVal (p1h, HVvdis_rID[i], HVvdis[i]); |
| 95 | HVcdis[i]=1e+6*getCurrentMeasurement(crate1, ch0+i); |
97 | HVcdis[i]=1e+6*getCurrentMeasurement(crate1, ch0+i); |
| 96 | SetCtrlVal (p1h, HVcdis_rID[i], HVcdis[i]); |
98 | SetCtrlVal (p1h, HVcdis_rID[i], HVcdis[i]); |
| - | 99 | } |
|
| 97 | PlotStripChart (p1h, P1_G1, HVcdis, 4, 0, 0, VAL_DOUBLE); |
100 | PlotStripChart (p1h, P1_G1, HVcdis, 4, 0, 0, VAL_DOUBLE); |
| 98 | break; |
101 | break; |
| 99 | case P1_MSW: |
102 | case P1_MSW: |
| 100 | GetCtrlVal (p1h, P1_MSW, &mainonoff); |
103 | GetCtrlVal (p1h, P1_MSW, &mainonoff); |
| 101 | if (ConfirmPopup("Main switch!!!", cMainSwitch[mainonoff])) |
104 | if (ConfirmPopup("Main switch!!!", cMainSwitch[mainonoff])) |
| Line 113... | Line 116... | ||
| 113 | } |
116 | } |
| 114 | HVvset[0]=getOutputVoltage(crate1,ch0); |
117 | HVvset[0]=getOutputVoltage(crate1,ch0); |
| 115 | SetCtrlVal (p1h, P1_HVvset, HVvset[0]); |
118 | SetCtrlVal (p1h, P1_HVvset, HVvset[0]); |
| 116 | HVcset[0]=1e+6*getOutputCurrent(crate1,ch0); |
119 | HVcset[0]=1e+6*getOutputCurrent(crate1,ch0); |
| 117 | SetCtrlVal (p1h, P1_HVcset, HVcset[0]); |
120 | SetCtrlVal (p1h, P1_HVcset, HVcset[0]); |
| - | 121 | SetAxisScalingMode (p1h, P1_G1, VAL_LEFT_YAXIS, VAL_MANUAL, -(HVcset[0]+1), 1.); |
|
| 118 | HVvrise=getModuleRampSpeedVoltage(crate1,mo); |
122 | HVvrise=getModuleRampSpeedVoltage(crate1,mo); |
| 119 | SetCtrlVal (p1h, P1_HVvrise, HVvrise); |
123 | SetCtrlVal (p1h, P1_HVvrise, HVvrise); |
| 120 | } |
124 | } |
| 121 | break; |
125 | break; |
| 122 | } |
126 | } |
| 123 | if (!mainonoff) continue; |
127 | if (!mainonoff) continue; |
| 124 | switch (rID) { |
128 | switch (rID) { |
| 125 | case |
129 | case P1_HVonoffall: |
| 126 | GetCtrlVal (p1h, |
130 | GetCtrlVal (p1h, P1_HVonoffall, &HVonoffall); |
| - | 131 | for (i=0;i<4;i++) { |
|
| - | 132 | GetCtrlVal (p1h, HVonoff_rID[i], &HVonoff[i]); |
|
| - | 133 | if (HVonoff[i]) |
|
| 127 |
|
134 | setChannelSwitch(crate1, ch0+i, HVonoffall); |
| - | 135 | } |
|
| 128 | break; |
136 | break; |
| 129 | case |
137 | case P1_HVvset: |
| 130 | GetCtrlVal (p1h, |
138 | GetCtrlVal (p1h, P1_HVvset, &HVvset[0]); |
| - | 139 | for (i=0;i<4;i++) |
|
| 131 | setOutputVoltage( |
140 | setOutputVoltage(crate1, ch0+i, HVvset[0]); |
| 132 | break; |
141 | break; |
| 133 | case |
142 | case P1_HVcset: |
| 134 | GetCtrlVal (p1h, |
143 | GetCtrlVal (p1h, P1_HVcset, &HVcset[0]); |
| - | 144 | SetAxisScalingMode (p1h, P1_G1, VAL_LEFT_YAXIS, VAL_MANUAL, -(HVcset[0]+1), 1.); |
|
| 135 |
|
145 | HVcset[0]/=1e+6; //[uA] |
| - | 146 | for (i=0;i<4;i++) |
|
| 136 | setOutputCurrent( |
147 | setOutputCurrent(crate1, ch0+i, HVcset[0]); |
| 137 | break; |
148 | break; |
| 138 | case |
149 | case P1_HVvrise: |
| 139 | GetCtrlVal (p1h, |
150 | GetCtrlVal (p1h, P1_HVvrise, &HVvrise); |
| 140 | setModuleRampSpeedVoltage(crate1, mo, |
151 | setModuleRampSpeedVoltage(crate1, mo, HVvrise); |
| 141 |
|
152 | HVvrise=getModuleRampSpeedVoltage(crate1,mo); |
| 142 | SetCtrlVal (p1h, |
153 | SetCtrlVal (p1h, P1_HVvrise, HVvrise); |
| 143 | break; |
154 | break; |
| 144 | // case P1_VFA0: |
155 | // case P1_VFA0: |
| 145 | // GetCtrlVal (p1h, P1_VFA0, &ret); |
156 | // GetCtrlVal (p1h, P1_VFA0, &ret); |
| 146 | // setOutputFallRate(crate1, ch, ret); |
157 | // setOutputFallRate(crate1, ch, ret); |
| 147 | // vfall[0]=abs(getOutputFallRate(crate1,ch)); |
158 | // vfall[0]=abs(getOutputFallRate(crate1,ch)); |