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#include "tracan.h"
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#include "tracan.h"
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// Useful functions
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// Useful functions
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void reverse_string(char *s) {
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void reverse_string(char *s) {
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char t, *e = s + strlen(s);
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char t, *e = s + strlen(s);
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while (--e > s) { t = *s;*s++=*e;*e=t; }
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while (--e > s) { t = *s;*s++=*e;*e=t; }
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}
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}
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unsigned long long bitsToInt(char *bit_vector, int bit_pos_max, int bit_pos_min) {
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unsigned long long bitsToInt(char *bit_vector, int bit_pos_max, int bit_pos_min) {
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unsigned long long value = 0;
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unsigned long long value = 0;
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unsigned int len = strlen(bit_vector);
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unsigned int len = strlen(bit_vector);
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if (bit_pos_min < 0 || bit_pos_min > bit_pos_max || bit_pos_max >= len) {
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if (bit_pos_min < 0 || bit_pos_min > bit_pos_max || bit_pos_max >= len) {
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printf("*** ERROR *** Invalid substring boundaries MIN=%d MAX=%d LEN=%d", bit_pos_min, bit_pos_max, len);
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printf("*** ERROR *** Invalid substring boundaries MIN=%d MAX=%d LEN=%d", bit_pos_min, bit_pos_max, len);
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exit(1);
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exit(1);
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}
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}
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for(unsigned long long i = 0; i <= bit_pos_max-bit_pos_min; i++) {
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for(unsigned long long i = 0; i <= bit_pos_max-bit_pos_min; i++) {
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if (bit_vector[bit_pos_min+i]=='1')
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if (bit_vector[bit_pos_min+i]=='1')
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value += (1ULL<<i);
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value += (1ULL<<i);
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}
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}
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return value;
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return value;
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}
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}
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// Print functions
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// Print functions
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void print_pcx_req(char *buf) {
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void print_pcx_req(char *buf) {
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if (!strcmp(buf, "10000")) printf("PCX_REQ RAM_DDR_0 ");
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if (!strcmp(buf, "10000")) printf("PCX_REQ RAM_DDR_0 ");
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else if (!strcmp(buf, "01000")) printf("PCX_REQ RAM_DDR_1 ");
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else if (!strcmp(buf, "01000")) printf("PCX_REQ RAM_DDR_1 ");
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else if (!strcmp(buf, "00100")) printf("PCX_REQ RAM_DDR_2 ");
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else if (!strcmp(buf, "00100")) printf("PCX_REQ RAM_DDR_2 ");
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else if (!strcmp(buf, "00010")) printf("PCX_REQ RAM_DDR_3 ");
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else if (!strcmp(buf, "00010")) printf("PCX_REQ RAM_DDR_3 ");
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else if (!strcmp(buf, "00001")) printf("PCX_REQ ROM_IOBridge ");
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else if (!strcmp(buf, "00001")) printf("PCX_REQ ROM_IOBridge ");
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else printf("PCX_REQ Unknown_%s ", buf);
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else printf("PCX_REQ Unknown_%s ", buf);
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}
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}
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void print_pcx_atom(char *buf) {
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void print_pcx_atom(char *buf) {
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if (!strcmp(buf, "1"))
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if (!strcmp(buf, "1"))
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printf("ATOMIC_");
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printf("ATOMIC_");
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}
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}
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void print_pcx_data(char *buf) {
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void print_pcx_data(char *buf) {
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char str_type[20], str_size[20];
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char str_type[20], str_size[20];
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if (!bitsToInt(buf, PCX_VLD,PCX_VLD)) return;
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if (!bitsToInt(buf, PCX_VLD,PCX_VLD)) return;
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switch(bitsToInt(buf, PCX_RQ_HI,PCX_RQ_LO)) {
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switch(bitsToInt(buf, PCX_RQ_HI,PCX_RQ_LO)) {
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case LOAD_RQ: strcpy(str_type, "LOAD_RQ"); break;
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case LOAD_RQ: strcpy(str_type, "LOAD_RQ"); break;
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case IMISS_RQ: strcpy(str_type, "IMISS_RQ"); break;
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case IMISS_RQ: strcpy(str_type, "IMISS_RQ"); break;
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case STORE_RQ: strcpy(str_type, "STORE_RQ"); break;
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case STORE_RQ: strcpy(str_type, "STORE_RQ"); break;
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case CAS1_RQ: strcpy(str_type, "CAS1_RQ"); break;
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case CAS1_RQ: strcpy(str_type, "CAS1_RQ"); break;
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case CAS2_RQ: strcpy(str_type, "CAS2_RQ"); break;
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case CAS2_RQ: strcpy(str_type, "CAS2_RQ"); break;
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case SWAP_RQ: strcpy(str_type, "SWAP_RQ"); break;
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case SWAP_RQ: strcpy(str_type, "SWAP_RQ"); break;
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case STRLOAD_RQ: strcpy(str_type, "STRLOAD_RQ"); break;
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case STRLOAD_RQ: strcpy(str_type, "STRLOAD_RQ"); break;
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case STRST_RQ: strcpy(str_type, "STRST_RQ"); break;
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case STRST_RQ: strcpy(str_type, "STRST_RQ"); break;
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case STQ_RQ: strcpy(str_type, "STQ_RQ"); break;
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case STQ_RQ: strcpy(str_type, "STQ_RQ"); break;
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case INT_RQ: strcpy(str_type, "INT_RQ"); break;
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case INT_RQ: strcpy(str_type, "INT_RQ"); break;
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case FWD_RQ: strcpy(str_type, "FWD_RQ"); break;
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case FWD_RQ: strcpy(str_type, "FWD_RQ"); break;
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case FWD_RPY: strcpy(str_type, "FWD_RPY"); break;
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case FWD_RPY: strcpy(str_type, "FWD_RPY"); break;
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case RSVD_RQ: strcpy(str_type, "RSVD_RQ"); break;
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case RSVD_RQ: strcpy(str_type, "RSVD_RQ"); break;
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case ATOM_REQ_A: strcpy(str_type, "ATOM_REQ_A"); break; // Added by Simply RISC
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case ATOM_REQ_A: strcpy(str_type, "ATOM_REQ_A"); break; // Added for S1 Core
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case ATOM_REQ_B: strcpy(str_type, "ATOM_REQ_B"); break; // Added by Simply RISC
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case ATOM_REQ_B: strcpy(str_type, "ATOM_REQ_B"); break; // Added for S1 Core
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default: sprintf(str_type, "Unknown_0x%02llX", bitsToInt(buf, PCX_RQ_HI,PCX_RQ_LO));
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default: sprintf(str_type, "Unknown_0x%02llX", bitsToInt(buf, PCX_RQ_HI,PCX_RQ_LO));
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}
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}
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switch(bitsToInt(buf, PCX_SZ_HI,PCX_SZ_LO)) {
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switch(bitsToInt(buf, PCX_SZ_HI,PCX_SZ_LO)) {
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case PCX_SZ_1B: strcpy(str_size, "1B"); break;
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case PCX_SZ_1B: strcpy(str_size, "1B"); break;
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case PCX_SZ_2B: strcpy(str_size, "2B"); break;
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case PCX_SZ_2B: strcpy(str_size, "2B"); break;
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case PCX_SZ_4B: strcpy(str_size, "4B"); break;
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case PCX_SZ_4B: strcpy(str_size, "4B"); break;
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case PCX_SZ_8B: strcpy(str_size, "8B"); break;
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case PCX_SZ_8B: strcpy(str_size, "8B"); break;
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case PCX_SZ_16B: strcpy(str_size, "16B"); break;
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case PCX_SZ_16B: strcpy(str_size, "16B"); break;
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default: sprintf(str_size, "Unknown_0x%02llX", bitsToInt(buf, PCX_SZ_HI,PCX_SZ_LO));
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default: sprintf(str_size, "Unknown_0x%02llX", bitsToInt(buf, PCX_SZ_HI,PCX_SZ_LO));
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}
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}
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printf("PCX_DATA Valid=%llu Type=%s NonCache_RnW=%llu PE=%llu.%llu Buffer=%llu L1Way_Packet=%llu Size=%s Address=0x%010llX Store_Data=0x%016llX\n",
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printf("PCX_DATA Valid=%llu Type=%s NonCache_RnW=%llu PE=%llu.%llu Buffer=%llu L1Way_Packet=%llu Size=%s Address=0x%010llX Store_Data=0x%016llX\n",
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bitsToInt(buf, PCX_VLD,PCX_VLD), str_type, bitsToInt(buf, PCX_R,PCX_R), bitsToInt(buf, PCX_CP_HI,PCX_CP_LO), bitsToInt(buf, PCX_TH_HI,PCX_TH_LO),
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bitsToInt(buf, PCX_VLD,PCX_VLD), str_type, bitsToInt(buf, PCX_R,PCX_R), bitsToInt(buf, PCX_CP_HI,PCX_CP_LO), bitsToInt(buf, PCX_TH_HI,PCX_TH_LO),
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bitsToInt(buf, PCX_BF_HI,PCX_BF_LO), bitsToInt(buf, PCX_WY_HI,PCX_WY_LO), str_size,
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bitsToInt(buf, PCX_BF_HI,PCX_BF_LO), bitsToInt(buf, PCX_WY_HI,PCX_WY_LO), str_size,
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bitsToInt(buf, PCX_AD_HI,PCX_AD_LO), bitsToInt(buf, PCX_DA_HI,PCX_DA_LO));
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bitsToInt(buf, PCX_AD_HI,PCX_AD_LO), bitsToInt(buf, PCX_DA_HI,PCX_DA_LO));
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}
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}
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void print_pcx_grant(char *buf) {
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void print_pcx_grant(char *buf) {
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if (!strcmp(buf, "10000")) printf("PCX_GRANT RAM_DDR_0\n");
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if (!strcmp(buf, "10000")) printf("PCX_GRANT RAM_DDR_0\n");
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else if (!strcmp(buf, "01000")) printf("PCX_GRANT RAM_DDR_1\n");
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else if (!strcmp(buf, "01000")) printf("PCX_GRANT RAM_DDR_1\n");
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else if (!strcmp(buf, "00100")) printf("PCX_GRANT RAM_DDR_2\n");
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else if (!strcmp(buf, "00100")) printf("PCX_GRANT RAM_DDR_2\n");
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else if (!strcmp(buf, "00010")) printf("PCX_GRANT RAM_DDR_3\n");
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else if (!strcmp(buf, "00010")) printf("PCX_GRANT RAM_DDR_3\n");
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else if (!strcmp(buf, "00001")) printf("PCX_GRANT ROM_IOBridge\n");
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else if (!strcmp(buf, "00001")) printf("PCX_GRANT ROM_IOBridge\n");
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else printf("PCX_GRANT Unknown_%s\n", buf);
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else printf("PCX_GRANT Unknown_%s\n", buf);
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}
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}
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void print_cpx_ready(char *buf) {
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void print_cpx_ready(char *buf) {
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printf("CPX_READY %s\n", buf);
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printf("CPX_READY %s\n", buf);
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}
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}
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void print_cpx_data(char *buf) {
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void print_cpx_data(char *buf) {
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char str_type[20];
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char str_type[20];
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if (!bitsToInt(buf, CPX_VLD,CPX_VLD)) return;
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if (!bitsToInt(buf, CPX_VLD,CPX_VLD)) return;
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switch(bitsToInt(buf, CPX_RQ_HI,CPX_RQ_LO)) {
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switch(bitsToInt(buf, CPX_RQ_HI,CPX_RQ_LO)) {
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case LOAD_RET: strcpy(str_type, "LOAD_RET"); break;
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case LOAD_RET: strcpy(str_type, "LOAD_RET"); break;
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case INV_RET: strcpy(str_type, "INV_RET__AT_ACK__EVICT_REQ"); break;
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case INV_RET: strcpy(str_type, "INV_RET__AT_ACK__EVICT_REQ"); break;
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case ST_ACK: strcpy(str_type, "ST_ACK"); break;
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case ST_ACK: strcpy(str_type, "ST_ACK"); break;
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case INT_RET: strcpy(str_type, "INT_RET"); break;
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case INT_RET: strcpy(str_type, "INT_RET"); break;
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case TEST_RET: strcpy(str_type, "TEST_RET"); break;
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case TEST_RET: strcpy(str_type, "TEST_RET"); break;
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case FP_RET: strcpy(str_type, "FP_RET"); break;
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case FP_RET: strcpy(str_type, "FP_RET"); break;
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case IFILL_RET: strcpy(str_type, "IFILL_RET"); break;
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case IFILL_RET: strcpy(str_type, "IFILL_RET"); break;
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case ERR_RET: strcpy(str_type, "ERR_RET"); break;
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case ERR_RET: strcpy(str_type, "ERR_RET"); break;
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case STRLOAD_RET: strcpy(str_type, "STRLOAD_RET"); break;
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case STRLOAD_RET: strcpy(str_type, "STRLOAD_RET"); break;
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case STRST_ACK: strcpy(str_type, "STRST_ACK"); break;
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case STRST_ACK: strcpy(str_type, "STRST_ACK"); break;
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case FWD_RQ_RET: strcpy(str_type, "FWD_RQ_RET"); break;
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case FWD_RQ_RET: strcpy(str_type, "FWD_RQ_RET"); break;
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case FWD_RPY_RET: strcpy(str_type, "FWD_RPY_RET"); break;
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case FWD_RPY_RET: strcpy(str_type, "FWD_RPY_RET"); break;
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case RSVD_RET: strcpy(str_type, "RSVD_RET"); break;
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case RSVD_RET: strcpy(str_type, "RSVD_RET"); break;
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default: sprintf(str_type, "Unknown_0x%02llX", bitsToInt(buf, CPX_RQ_HI,CPX_RQ_LO));
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default: sprintf(str_type, "Unknown_0x%02llX", bitsToInt(buf, CPX_RQ_HI,CPX_RQ_LO));
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}
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}
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printf("CPX_DATA Valid=%llu Type=%s Error=%llu NonCache_RnW=%llu Thread=%llu IntSrc_etc=0x%04llX Load_Data=0x%016llX%016llX\n",
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printf("CPX_DATA Valid=%llu Type=%s Error=%llu NonCache_RnW=%llu Thread=%llu IntSrc_etc=0x%04llX Load_Data=0x%016llX%016llX\n",
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bitsToInt(buf, CPX_VLD,CPX_VLD), str_type, bitsToInt(buf, CPX_ERR_HI-1,CPX_ERR_LO), bitsToInt(buf, CPX_R,CPX_R), bitsToInt(buf, CPX_TH_HI,CPX_TH_LO),
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bitsToInt(buf, CPX_VLD,CPX_VLD), str_type, bitsToInt(buf, CPX_ERR_HI-1,CPX_ERR_LO), bitsToInt(buf, CPX_R,CPX_R), bitsToInt(buf, CPX_TH_HI,CPX_TH_LO),
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bitsToInt(buf, CPX_IN_HI,CPX_IN_LO), bitsToInt(buf, CPX_DA_HI,CPX_DA_LO+64), bitsToInt(buf, CPX_DA_LO+63,CPX_DA_LO));
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bitsToInt(buf, CPX_IN_HI,CPX_IN_LO), bitsToInt(buf, CPX_DA_HI,CPX_DA_LO+64), bitsToInt(buf, CPX_DA_LO+63,CPX_DA_LO));
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}
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}
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// Main function
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// Main function
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int main() {
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int main() {
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char bit_vector[200];
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char bit_vector[200];
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char signal_type;
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char signal_type;
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while(!feof(stdin)) {
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while(!feof(stdin)) {
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fscanf(stdin, "%s %c\n", bit_vector, &signal_type);
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fscanf(stdin, "%s %c\n", bit_vector, &signal_type);
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reverse_string(bit_vector);
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reverse_string(bit_vector);
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switch (signal_type) {
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switch (signal_type) {
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case VCD_ID_PCX_REQ: print_pcx_req(bit_vector); break;
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case VCD_ID_PCX_REQ: print_pcx_req(bit_vector); break;
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case VCD_ID_PCX_ATOM: print_pcx_atom(bit_vector); break;
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case VCD_ID_PCX_ATOM: print_pcx_atom(bit_vector); break;
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case VCD_ID_PCX_DATA: print_pcx_data(bit_vector); break;
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case VCD_ID_PCX_DATA: print_pcx_data(bit_vector); break;
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case VCD_ID_PCX_GRANT: print_pcx_grant(bit_vector); break;
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case VCD_ID_PCX_GRANT: print_pcx_grant(bit_vector); break;
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case VCD_ID_CPX_READY: print_cpx_ready(bit_vector); break;
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case VCD_ID_CPX_READY: print_cpx_ready(bit_vector); break;
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case VCD_ID_CPX_DATA: print_cpx_data(bit_vector); break;
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case VCD_ID_CPX_DATA: print_cpx_data(bit_vector); break;
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}
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}
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}
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}
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}
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}
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