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https://opencores.org/ocsvn/openrisc/openrisc/trunk
Subversion Repositories openrisc
[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [SuperH_SH7216_Renesas/] [RTOSDemo/] [vect.h] - Rev 585
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/****************************************************************************** * DISCLAIMER * * This software is supplied by Renesas Technology Corp. and is only * intended for use with Renesas products. No other uses are authorized. * * This software is owned by Renesas Technology Corp. and is protected under * all applicable laws, including copyright laws. * * THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES * REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED OR STATUTORY, * INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A * PARTICULAR PURPOSE AND NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY * DISCLAIMED. * * TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY LAW, NEITHER RENESAS * TECHNOLOGY CORP. NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE * FOR ANY DIRECT, INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES * FOR ANY REASON RELATED TO THE THIS SOFTWARE, EVEN IF RENESAS OR ITS * AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. * * Renesas reserves the right, without notice, to make changes to this * software and to discontinue the availability of this software. * By using this software, you agree to the additional terms and * conditions found by accessing the following link: * http://www.renesas.com/disclaimer ******************************************************************************** * Copyright (C) 2009. Renesas Technology Corp., All Rights Reserved. *""FILE COMMENT""*********** Technical reference data ************************** * System Name : SH7216 Sample Program * File Name : vect.h * Abstract : Definition of Vector * Version : 0.02.00 * Device : SH7216 * Tool-Chain : High-performance Embedded Workshop (Ver.4.05.01). * : C/C++ compiler package for the SuperH RISC engine family * : (Ver.9.03 Release00). * OS : None * H/W Platform: R0K572167 (CPU board) * Description : ******************************************************************************** * History : Mar.30,2009 Ver.0.02.00 *""FILE COMMENT END""**********************************************************/ #ifndef VECT_H #define VECT_H //;<<VECTOR DATA START (POWER ON RESET)>> // 0 Power On Reset PC extern void PowerON_Reset_PC(void); //;<<VECTOR DATA END (POWER ON RESET)>> // 1 Power On Reset SP //;<<VECTOR DATA START (MANUAL RESET)>> // 2 Manual Reset PC extern void Manual_Reset_PC(void); //;<<VECTOR DATA END (MANUAL RESET)>> // 3 Manual Reset SP // 4 Illegal code #pragma interrupt INT_Illegal_code extern void INT_Illegal_code(void); // 5 Reserved // 6 Illegal slot #pragma interrupt INT_Illegal_slot extern void INT_Illegal_slot(void); // 7 Reserved // 8 Reserved // 9 CPU Address error #pragma interrupt INT_CPU_Address extern void INT_CPU_Address(void); // 10 DMAC Address error #pragma interrupt INT_DMAC_Address extern void INT_DMAC_Address(void); // 11 NMI #pragma interrupt INT_NMI extern void INT_NMI(void); // 12 User breakpoint trap #pragma interrupt INT_User_Break extern void INT_User_Break(void); // 13 Reserved // 14 H-UDI #pragma interrupt INT_HUDI extern void INT_HUDI(void); // 15 Register bank over #pragma interrupt INT_Bank_Overflow extern void INT_Bank_Overflow(void); // 16 Register bank under #pragma interrupt INT_Bank_Underflow extern void INT_Bank_Underflow(void); // 17 ZERO_DIV #pragma interrupt INT_Divide_by_Zero extern void INT_Divide_by_Zero(void); // 18 OVER_DIV #pragma interrupt INT_Divide_Overflow extern void INT_Divide_Overflow(void); // 19 Reserved // 20 Reserved // 21 Reserved // 22 Reserved // 23 Reserved // 24 Reserved // 25 Reserved // 26 Reserved // 27 Reserved // 28 Reserved // 29 Reserved // 30 Reserved // 31 Reserved // 32 TRAPA (User Vecter) #pragma interrupt INT_TRAPA32 extern void INT_TRAPA32(void); // 33 TRAPA (User Vecter) #pragma interrupt INT_TRAPA33 extern void INT_TRAPA33(void); // 34 TRAPA (User Vecter) #pragma interrupt INT_TRAPA34 extern void INT_TRAPA34(void); // 35 TRAPA (User Vecter) #pragma interrupt INT_TRAPA35 extern void INT_TRAPA35(void); // 36 TRAPA (User Vecter) #pragma interrupt INT_TRAPA36 extern void INT_TRAPA36(void); // 37 TRAPA (User Vecter) #pragma interrupt INT_TRAPA37 extern void INT_TRAPA37(void); // 38 TRAPA (User Vecter) #pragma interrupt INT_TRAPA38 extern void INT_TRAPA38(void); // 39 TRAPA (User Vecter) #pragma interrupt INT_TRAPA39 extern void INT_TRAPA39(void); // 40 TRAPA (User Vecter) #pragma interrupt INT_TRAPA40 extern void INT_TRAPA40(void); // 41 TRAPA (User Vecter) #pragma interrupt INT_TRAPA41 extern void INT_TRAPA41(void); // 42 TRAPA (User Vecter) #pragma interrupt INT_TRAPA42 extern void INT_TRAPA42(void); // 43 TRAPA (User Vecter) #pragma interrupt INT_TRAPA43 extern void INT_TRAPA43(void); // 44 TRAPA (User Vecter) #pragma interrupt INT_TRAPA44 extern void INT_TRAPA44(void); // 45 TRAPA (User Vecter) #pragma interrupt INT_TRAPA45 extern void INT_TRAPA45(void); // 46 TRAPA (User Vecter) #pragma interrupt INT_TRAPA46 extern void INT_TRAPA46(void); // 47 TRAPA (User Vecter) #pragma interrupt INT_TRAPA47 extern void INT_TRAPA47(void); // 48 TRAPA (User Vecter) #pragma interrupt INT_TRAPA48 extern void INT_TRAPA48(void); // 49 TRAPA (User Vecter) #pragma interrupt INT_TRAPA49 extern void INT_TRAPA49(void); // 50 TRAPA (User Vecter) #pragma interrupt INT_TRAPA50 extern void INT_TRAPA50(void); // 51 TRAPA (User Vecter) #pragma interrupt INT_TRAPA51 extern void INT_TRAPA51(void); // 52 TRAPA (User Vecter) #pragma interrupt INT_TRAPA52 extern void INT_TRAPA52(void); // 53 TRAPA (User Vecter) #pragma interrupt INT_TRAPA53 extern void INT_TRAPA53(void); // 54 TRAPA (User Vecter) #pragma interrupt INT_TRAPA54 extern void INT_TRAPA54(void); // 55 TRAPA (User Vecter) #pragma interrupt INT_TRAPA55 extern void INT_TRAPA55(void); // 56 TRAPA (User Vecter) #pragma interrupt INT_TRAPA56 extern void INT_TRAPA56(void); // 57 TRAPA (User Vecter) #pragma interrupt INT_TRAPA57 extern void INT_TRAPA57(void); // 58 TRAPA (User Vecter) #pragma interrupt INT_TRAPA58 extern void INT_TRAPA58(void); // 59 TRAPA (User Vecter) #pragma interrupt INT_TRAPA59 extern void INT_TRAPA59(void); // 60 TRAPA (User Vecter) #pragma interrupt INT_TRAPA60 extern void INT_TRAPA60(void); // 61 TRAPA (User Vecter) #pragma interrupt INT_TRAPA61 extern void INT_TRAPA61(void); // 62 TRAPA (User Vecter) #pragma interrupt INT_TRAPA62 extern void INT_TRAPA62(void); // 63 TRAPA (User Vecter) #pragma interrupt INT_TRAPA63 extern void INT_TRAPA63(void); // 64 Interrupt IRQ0 #pragma interrupt INT_IRQ0(resbank) extern void INT_IRQ0(void); // 65 Interrupt IRQ1 #pragma interrupt INT_IRQ1(resbank) extern void INT_IRQ1(void); // 66 Interrupt IRQ2 #pragma interrupt INT_IRQ2(resbank) extern void INT_IRQ2(void); // 67 Interrupt IRQ3 #pragma interrupt INT_IRQ3(resbank) extern void INT_IRQ3(void); // 68 Interrupt IRQ4 #pragma interrupt INT_IRQ4(resbank) extern void INT_IRQ4(void); // 69 Interrupt IRQ5 #pragma interrupt INT_IRQ5(resbank) extern void INT_IRQ5(void); // 70 Interrupt IRQ6 #pragma interrupt INT_IRQ6(resbank) extern void INT_IRQ6(void); // 71 Interrupt IRQ7 #pragma interrupt INT_IRQ7(resbank) extern void INT_IRQ7(void); // 72 Reserved // 73 Reserved // 74 Reserved // 75 Reserved // 76 Reserved // 77 Reserved // 78 Reserved // 79 Reserved // 80 Interrupt PINT0 #pragma interrupt INT_PINT0(resbank) extern void INT_PINT0(void); // 81 Interrupt PINT1 #pragma interrupt INT_PINT1(resbank) extern void INT_PINT1(void); // 82 Interrupt PINT2 #pragma interrupt INT_PINT2(resbank) extern void INT_PINT2(void); // 83 Interrupt PINT3 #pragma interrupt INT_PINT3(resbank) extern void INT_PINT3(void); // 84 Interrupt PINT4 #pragma interrupt INT_PINT4(resbank) extern void INT_PINT4(void); // 85 Interrupt PINT5 #pragma interrupt INT_PINT5(resbank) extern void INT_PINT5(void); // 86 Interrupt PINT6 #pragma interrupt INT_PINT6(resbank) extern void INT_PINT6(void); // 87 Interrupt PINT7 #pragma interrupt INT_PINT7(resbank) extern void INT_PINT7(void); // 88 Reserved // 89 Reserved // 90 Reserved // 91 ROM FIFE #pragma interrupt INT_ROM_FIFE(resbank) extern void INT_ROM_FIFE(void); // 92 A/D ADI0 #pragma interrupt INT_AD_ADI0(resbank) extern void INT_AD_ADI0(void); // 93 Reserved // 94 Reserved // 95 Reserved // 96 A/D ADI1 #pragma interrupt INT_AD_ADI1(resbank) extern void INT_AD_ADI1(void); // 97 Reserved // 98 Reserved // 99 Reserved // 100 Reserved // 101 Reserved // 102 Reserved // 103 Reserved // 104 RCANET0 ERS_0 #pragma interrupt INT_RCANET0_ERS_0 extern void INT_RCANET0_ERS_0(void); // 105 RCANET0 OVR_0 #pragma interrupt INT_RCANET0_OVR_0 extern void INT_RCANET0_OVR_0(void); // 106 RCANET0 RM01_0 #pragma interrupt INT_RCANET0_RM01_0 extern void INT_RCANET0_RM01_0(void); // 107 RCANET0 SLE_0 #pragma interrupt INT_RCANET0_SLE_0 extern void INT_RCANET0_SLE_0(void); // 108 DMAC0 DEI0 #pragma interrupt INT_DMAC0_DEI0(resbank) extern void INT_DMAC0_DEI0(void); // 109 DMAC0 HEI0 #pragma interrupt INT_DMAC0_HEI0(resbank) extern void INT_DMAC0_HEI0(void); // 110 Reserved // 111 Reserved // 112 DMAC1 DEI1 #pragma interrupt INT_DMAC1_DEI1(resbank) extern void INT_DMAC1_DEI1(void); // 113 DMAC1 HEI1 #pragma interrupt INT_DMAC1_HEI1(resbank) extern void INT_DMAC1_HEI1(void); // 114 Reserved // 115 Reserved // 116 DMAC2 DEI2 #pragma interrupt INT_DMAC2_DEI2(resbank) extern void INT_DMAC2_DEI2(void); // 117 DMAC2 HEI2 #pragma interrupt INT_DMAC2_HEI2(resbank) extern void INT_DMAC2_HEI2(void); // 118 Reserved // 119 Reserved // 120 DMAC3 DEI3 #pragma interrupt INT_DMAC3_DEI3(resbank) extern void INT_DMAC3_DEI3(void); // 121 DMAC3 HEI3 #pragma interrupt INT_DMAC3_HEI3(resbank) extern void INT_DMAC3_HEI3(void); // 122 Reserved // 123 Reserved // 124 DMAC4 DEI4 #pragma interrupt INT_DMAC4_DEI4(resbank) extern void INT_DMAC4_DEI4(void); // 125 DMAC4 HEI4 #pragma interrupt INT_DMAC4_HEI4(resbank) extern void INT_DMAC4_HEI4(void); // 126 Reserved // 127 Reserved // 128 DMAC5 DEI5 #pragma interrupt INT_DMAC5_DEI5(resbank) extern void INT_DMAC5_DEI5(void); // 129 DMAC5 HEI5 #pragma interrupt INT_DMAC5_HEI5(resbank) extern void INT_DMAC5_HEI5(void); // 130 Reserved // 131 Reserved // 132 DMAC6 DEI6 #pragma interrupt INT_DMAC6_DEI6(resbank) extern void INT_DMAC6_DEI6(void); // 133 DMAC6 HEI6 #pragma interrupt INT_DMAC6_HEI6(resbank) extern void INT_DMAC6_HEI6(void); // 134 Reserved // 135 Reserved // 136 DMAC7 DEI7 #pragma interrupt INT_DMAC7_DEI7(resbank) extern void INT_DMAC7_DEI7(void); // 137 DMAC7 HEI7 #pragma interrupt INT_DMAC7_HEI7(resbank) extern void INT_DMAC7_HEI7(void); // 138 Reserved // 139 Reserved // 140 CMT CMI0 #pragma interrupt INT_CMT_CMI0(resbank) extern void INT_CMT_CMI0(void); // 141 Reserved // 142 Reserved // 143 Reserved // 144 CMT CMI1 #pragma interrupt INT_CMT_CMI1(resbank) extern void INT_CMT_CMI1(void); // 145 Reserved // 146 Reserved // 147 Reserved // 148 BSC CMTI #pragma interrupt INT_BSC_CMTI(resbank) extern void INT_BSC_CMTI(void); // 149 Reserved // 150 USB EP4FULL #pragma interrupt INT_USB_EP4FULL(resbank) extern void INT_USB_EP4FULL(void); // 151 USB EP5EMPTY #pragma interrupt INT_USB_EP5EMPTY(resbank) extern void INT_USB_EP5EMPTY(void); // 152 WDT ITI #pragma interrupt INT_WDT_ITI(resbank) extern void INT_WDT_ITI(void); // 153 E-DMAC EINT0 #pragma interrupt INT_EDMAC_EINT0(resbank) extern void INT_EDMAC_EINT0(void); // 154 USB EP1FULL #pragma interrupt INT_USB_EP1FULL(resbank) extern void INT_USB_EP1FULL(void); // 155 USB EP2EMPTY #pragma interrupt INT_USB_EP2EMPTY(resbank) extern void INT_USB_EP2EMPTY(void); // 156 MTU2 MTU0 TGI0A #pragma interrupt INT_MTU2_MTU0_TGI0A(resbank) extern void INT_MTU2_MTU0_TGI0A(void); // 157 MTU2 MTU0 TGI0B #pragma interrupt INT_MTU2_MTU0_TGI0B(resbank) extern void INT_MTU2_MTU0_TGI0B(void); // 158 MTU2 MTU0 TGI0C #pragma interrupt INT_MTU2_MTU0_TGI0C(resbank) extern void INT_MTU2_MTU0_TGI0C(void); // 159 MTU2 MTU0 TGI0D #pragma interrupt INT_MTU2_MTU0_TGI0D(resbank) extern void INT_MTU2_MTU0_TGI0D(void); // 160 MTU2 MTU0 TGI0V #pragma interrupt INT_MTU2_MTU0_TGI0V(resbank) extern void INT_MTU2_MTU0_TGI0V(void); // 161 MTU2 MTU0 TGI0E #pragma interrupt INT_MTU2_MTU0_TGI0E(resbank) extern void INT_MTU2_MTU0_TGI0E(void); // 162 MTU2 MTU0 TGI0F #pragma interrupt INT_MTU2_MTU0_TGI0F(resbank) extern void INT_MTU2_MTU0_TGI0F(void); // 163 Reserved // 164 MTU2 MTU1 TGI1A #pragma interrupt INT_MTU2_MTU1_TGI1A(resbank) extern void INT_MTU2_MTU1_TGI1A(void); // 165 MTU2 MTU1 TGI1B #pragma interrupt INT_MTU2_MTU1_TGI1B(resbank) extern void INT_MTU2_MTU1_TGI1B(void); // 166 Reserved // 167 Reserved // 168 MTU2 MTU1 TGI1V #pragma interrupt INT_MTU2_MTU1_TGI1V(resbank) extern void INT_MTU2_MTU1_TGI1V(void); // 169 MTU2 MTU1 TGI1U #pragma interrupt INT_MTU2_MTU1_TGI1U(resbank) extern void INT_MTU2_MTU1_TGI1U(void); // 170 Reserved // 171 Reserved // 172 MTU2 MTU2 TGI2A #pragma interrupt INT_MTU2_MTU2_TGI2A(resbank) extern void INT_MTU2_MTU2_TGI2A(void); // 173 MTU2 MTU2 TGI2B #pragma interrupt INT_MTU2_MTU2_TGI2B(resbank) extern void INT_MTU2_MTU2_TGI2B(void); // 174 Reserved // 175 Reserved // 176 MTU2 MTU2 TGI2V #pragma interrupt INT_MTU2_MTU2_TGI2V(resbank) extern void INT_MTU2_MTU2_TGI2V(void); // 177 MTU2 MTU2 TGI2U #pragma interrupt INT_MTU2_MTU2_TGI2U(resbank) extern void INT_MTU2_MTU2_TGI2U(void); // 178 Reserved // 179 Reserved // 180 MTU2 MTU3 TGI3A #pragma interrupt INT_MTU2_MTU3_TGI3A(resbank) extern void INT_MTU2_MTU3_TGI3A(void); // 181 MTU2 MTU3 TGI3B #pragma interrupt INT_MTU2_MTU3_TGI3B(resbank) extern void INT_MTU2_MTU3_TGI3B(void); // 182 MTU2 MTU3 TGI3C #pragma interrupt INT_MTU2_MTU3_TGI3C(resbank) extern void INT_MTU2_MTU3_TGI3C(void); // 183 MTU2 MTU3 TGI3D #pragma interrupt INT_MTU2_MTU3_TGI3D(resbank) extern void INT_MTU2_MTU3_TGI3D(void); // 184 MTU2 MTU3 TGI3V #pragma interrupt INT_MTU2_MTU3_TGI3V(resbank) extern void INT_MTU2_MTU3_TGI3V(void); // 185 Reserved // 186 Reserved // 187 Reserved // 188 MTU2 MTU4 TGI4A #pragma interrupt INT_MTU2_MTU4_TGI4A(resbank) extern void INT_MTU2_MTU4_TGI4A(void); // 189 MTU2 MTU4 TGI4B #pragma interrupt INT_MTU2_MTU4_TGI4B(resbank) extern void INT_MTU2_MTU4_TGI4B(void); // 190 MTU2 MTU4 TGI4C #pragma interrupt INT_MTU2_MTU4_TGI4C(resbank) extern void INT_MTU2_MTU4_TGI4C(void); // 191 MTU2 MTU4 TGI4D #pragma interrupt INT_MTU2_MTU4_TGI4D(resbank) extern void INT_MTU2_MTU4_TGI4D(void); // 192 MTU2 MTU4 TGI4V #pragma interrupt INT_MTU2_MTU4_TGI4V(resbank) extern void INT_MTU2_MTU4_TGI4V(void); // 193 Reserved // 194 Reserved // 195 Reserved // 196 MTU2 MTU5 TGI5U #pragma interrupt INT_MTU2_MTU5_TGI5U(resbank) extern void INT_MTU2_MTU5_TGI5U(void); // 197 MTU2 MTU5 TGI5V #pragma interrupt INT_MTU2_MTU5_TGI5V(resbank) extern void INT_MTU2_MTU5_TGI5V(void); // 198 MTU2 MTU5 TGI5W #pragma interrupt INT_MTU2_MTU5_TGI5W(resbank) extern void INT_MTU2_MTU5_TGI5W(void); // 199 Reserved // 200 POE2 OEI1 #pragma interrupt INT_POE2_OEI1(resbank) extern void INT_POE2_OEI1(void); // 201 POE2 OEI2 #pragma interrupt INT_POE2_OEI2(resbank) extern void INT_POE2_OEI2(void); // 202 Reserved // 203 Reserved // 204 MTU2S MTU3S TGI3A #pragma interrupt INT_MTU2S_MTU3S_TGI3A(resbank) extern void INT_MTU2S_MTU3S_TGI3A(void); // 205 MTU2S MTU3S TGI3B #pragma interrupt INT_MTU2S_MTU3S_TGI3B(resbank) extern void INT_MTU2S_MTU3S_TGI3B(void); // 206 MTU2S MTU3S TGI3C #pragma interrupt INT_MTU2S_MTU3S_TGI3C(resbank) extern void INT_MTU2S_MTU3S_TGI3C(void); // 207 MTU2S MTU3S TGI3D #pragma interrupt INT_MTU2S_MTU3S_TGI3D(resbank) extern void INT_MTU2S_MTU3S_TGI3D(void); // 208 MTU2S MTU3S TGI3V #pragma interrupt INT_MTU2S_MTU3S_TGI3V(resbank) extern void INT_MTU2S_MTU3S_TGI3V(void); // 209 Reserved // 210 Reserved // 211 Reserved // 212 MTU2S MTU4S TGI4A #pragma interrupt INT_MTU2S_MTU4S_TGI4A(resbank) extern void INT_MTU2S_MTU4S_TGI4A(void); // 213 MTU2S MTU4S TGI4B #pragma interrupt INT_MTU2S_MTU4S_TGI4B(resbank) extern void INT_MTU2S_MTU4S_TGI4B(void); // 214 MTU2S MTU4S TGI4C #pragma interrupt INT_MTU2S_MTU4S_TGI4C(resbank) extern void INT_MTU2S_MTU4S_TGI4C(void); // 215 MTU2S MTU4S TGI4D #pragma interrupt INT_MTU2S_MTU4S_TGI4D(resbank) extern void INT_MTU2S_MTU4S_TGI4D(void); // 216 MTU2S MTU4S TGI4V #pragma interrupt INT_MTU2S_MTU4S_TGI4V(resbank) extern void INT_MTU2S_MTU4S_TGI4V(void); // 217 Reserved // 218 Reserved // 219 Reserved // 220 MTU2S MTU5S TGI5U #pragma interrupt INT_MTU2S_MTU5S_TGI5U(resbank) extern void INT_MTU2S_MTU5S_TGI5U(void); // 221 MTU2S MTU5S TGI5V #pragma interrupt INT_MTU2S_MTU5S_TGI5V(resbank) extern void INT_MTU2S_MTU5S_TGI5V(void); // 222 MTU2S MTU5S TGI5W #pragma interrupt INT_MTU2S_MTU5S_TGI5W(resbank) extern void INT_MTU2S_MTU5S_TGI5W(void); // 223 Reserved // 224 POE2 OEI3 #pragma interrupt INT_POE2_OEI3(resbank) extern void INT_POE2_OEI3(void); // 225 Reserved // 226 USB USI0 #pragma interrupt INT_USB_USI0(resbank) extern void INT_USB_USI0(void); // 227 USB USI1 #pragma interrupt INT_USB_USI1(resbank) extern void INT_USB_USI1(void); // 228 IIC3 STPI #pragma interrupt INT_IIC3_STPI(resbank) extern void INT_IIC3_STPI(void); // 229 IIC3 NAKI #pragma interrupt INT_IIC3_NAKI(resbank) extern void INT_IIC3_NAKI(void); // 230 IIC3 RXI #pragma interrupt INT_IIC3_RXI(resbank) extern void INT_IIC3_RXI(void); // 231 IIC3 TXI #pragma interrupt INT_IIC3_TXI(resbank) extern void INT_IIC3_TXI(void); // 232 IIC3 TEI #pragma interrupt INT_IIC3_TEI(resbank) extern void INT_IIC3_TEI(void); // 233 RSPI SPERI #pragma interrupt INT_RSPI_SPERI(resbank) extern void INT_RSPI_SPERI(void); // 234 RSPI SPRXI #pragma interrupt INT_RSPI_SPRXI(resbank) extern void INT_RSPI_SPRXI(void); // 235 RSPI SPTXI #pragma interrupt INT_RSPI_SPTXI(resbank) extern void INT_RSPI_SPTXI(void); // 236 SCI SCI4 ERI4 #pragma interrupt INT_SCI_SCI4_ERI4(resbank) extern void INT_SCI_SCI4_ERI4(void); // 237 SCI SCI4 RXI4 #pragma interrupt INT_SCI_SCI4_RXI4(resbank) extern void INT_SCI_SCI4_RXI4(void); // 238 SCI SCI4 TXI4 #pragma interrupt INT_SCI_SCI4_TXI4(resbank) extern void INT_SCI_SCI4_TXI4(void); // 239 SCI SCI4 TEI4 #pragma interrupt INT_SCI_SCI4_TEI4(resbank) extern void INT_SCI_SCI4_TEI4(void); // 240 SCI SCI0 ERI0 #pragma interrupt INT_SCI_SCI0_ERI0(resbank) extern void INT_SCI_SCI0_ERI0(void); // 241 SCI SCI0 RXI0 #pragma interrupt INT_SCI_SCI0_RXI0(resbank) extern void INT_SCI_SCI0_RXI0(void); // 242 SCI SCI0 TXI0 #pragma interrupt INT_SCI_SCI0_TXI0(resbank) extern void INT_SCI_SCI0_TXI0(void); // 243 SCI SCI0 TEI0 #pragma interrupt INT_SCI_SCI0_TEI0(resbank) extern void INT_SCI_SCI0_TEI0(void); // 244 SCI SCI1 ERI1 #pragma interrupt INT_SCI_SCI1_ERI1(resbank) extern void INT_SCI_SCI1_ERI1(void); // 245 SCI SCI1 RXI1 #pragma interrupt INT_SCI_SCI1_RXI1(resbank) extern void INT_SCI_SCI1_RXI1(void); // 246 SCI SCI1 TXI1 #pragma interrupt INT_SCI_SCI1_TXI1(resbank) extern void INT_SCI_SCI1_TXI1(void); // 247 SCI SCI1 TEI1 #pragma interrupt INT_SCI_SCI1_TEI1(resbank) extern void INT_SCI_SCI1_TEI1(void); // 248 SCI SCI2 ERI2 #pragma interrupt INT_SCI_SCI2_ERI2(resbank) extern void INT_SCI_SCI2_ERI2(void); // 249 SCI SCI2 RXI2 #pragma interrupt INT_SCI_SCI2_RXI2(resbank) extern void INT_SCI_SCI2_RXI2(void); // 250 SCI SCI2 TXI2 #pragma interrupt INT_SCI_SCI2_TXI2(resbank) extern void INT_SCI_SCI2_TXI2(void); // 251 SCI SCI2 TEI2 #pragma interrupt INT_SCI_SCI2_TEI2(resbank) extern void INT_SCI_SCI2_TEI2(void); // 252 SCIF SCIF3 BRI3 #pragma interrupt INT_SCIF_SCIF3_BRI3(resbank) extern void INT_SCIF_SCIF3_BRI3(void); // 253 SCIF SCIF3 ERI3 #pragma interrupt INT_SCIF_SCIF3_ERI3(resbank) extern void INT_SCIF_SCIF3_ERI3(void); // 254 SCIF SCIF3 RXI3 #pragma interrupt INT_SCIF_SCIF3_RXI3(resbank) extern void INT_SCIF_SCIF3_RXI3(void); // 255 SCIF SCIF3 TXI3 #pragma interrupt INT_SCIF_SCIF3_TXI3(resbank) extern void INT_SCIF_SCIF3_TXI3(void); // Dummy #pragma interrupt Dummy(resbank) extern void Dummy(void); #endif /* VECT_H */ /* End of File */