| | 1 | //===============================================================================\r |
| | 2 | // FPGA GALAXIAN VIDEO\r |
| | 3 | //\r |
| | 4 | // Version : 2.50\r |
| | 5 | //\r |
| | 6 | // Copyright(c) 2004 Katsumi Degawa , All rights reserved\r |
| | 7 | //\r |
| | 8 | // Important !\r |
| | 9 | //\r |
| | 10 | // This program is freeware for non-commercial use. \r |
| | 11 | // An author does no guarantee about this program.\r |
| | 12 | // You can use this under your own risk.\r |
| | 13 | //\r |
| | 14 | // 2004- 4-30 galaxian modify by K.DEGAWA\r |
| | 15 | // 2004- 5- 6 first release.\r |
| | 16 | // 2004- 8-23 Improvement with T80-IP.\r |
| | 17 | // 2004- 9-22 The problem which missile didn't sometimes come out from was improved.\r |
| | 18 | //================================================================================\r |
| | 19 | //-----------------------------------------------------------------------------------------\r |
| | 20 | // H_CNT[0],H_CNT[1],H_CNT[2],H_CNT[3],H_CNT[4],H_CNT[5],H_CNT[6],H_CNT[7],H_CNT[8], \r |
| | 21 | // 1 H 2 H 4H 8H 16 H 32H 64 H 128 H 256 H\r |
| | 22 | //-----------------------------------------------------------------------------------------\r |
| | 23 | // V_CNT[0], V_CNT[1], V_CNT[2], V_CNT[3], V_CNT[4], V_CNT[5], V_CNT[6], V_CNT[7] \r |
| | 24 | // 1 V 2 V 4 V 8 V 16 V 32 V 64 V 128 V \r |
| | 25 | //-----------------------------------------------------------------------------------------\r |
| | 26 | \r |
| | 27 | module mc_video(\r |
| | 28 | \r |
| | 29 | I_CLK_18M,\r |
| | 30 | I_CLK_12M,\r |
| | 31 | I_CLK_6M,\r |
| | 32 | I_H_CNT,\r |
| | 33 | I_V_CNT,\r |
| | 34 | I_H_FLIP,\r |
| | 35 | I_V_FLIP,\r |
| | 36 | I_V_BLn,\r |
| | 37 | I_C_BLn,\r |
| | 38 | \r |
| | 39 | I_A,\r |
| | 40 | I_OBJ_SUB_A,\r |
| | 41 | I_BD,\r |
| | 42 | I_OBJ_RAM_RQn,\r |
| | 43 | I_OBJ_RAM_RDn,\r |
| | 44 | I_OBJ_RAM_WRn,\r |
| | 45 | I_VID_RAM_RDn,\r |
| | 46 | I_VID_RAM_WRn,\r |
| | 47 | \r |
| | 48 | O_C_BLnX,\r |
| | 49 | O_8HF,\r |
| | 50 | O_256HnX,\r |
| | 51 | O_1VF,\r |
| | 52 | O_MISSILEn,\r |
| | 53 | O_SHELLn,\r |
| | 54 | O_BD,\r |
| | 55 | O_VID,\r |
| | 56 | O_COL\r |
| | 57 | \r |
| | 58 | );\r |
| | 59 | \r |
| | 60 | input I_CLK_18M;\r |
| | 61 | input I_CLK_12M;\r |
| | 62 | input I_CLK_6M;\r |
| | 63 | input [8:0]I_H_CNT;\r |
| | 64 | input [7:0]I_V_CNT;\r |
| | 65 | input I_H_FLIP;\r |
| | 66 | input I_V_FLIP;\r |
| | 67 | input I_V_BLn;\r |
| | 68 | input I_C_BLn;\r |
| | 69 | \r |
| | 70 | input [9:0]I_A;\r |
| | 71 | input [7:0]I_BD;\r |
| | 72 | input [2:0]I_OBJ_SUB_A;\r |
| | 73 | input I_OBJ_RAM_RQn;\r |
| | 74 | input I_OBJ_RAM_RDn;\r |
| | 75 | input I_OBJ_RAM_WRn;\r |
| | 76 | input I_VID_RAM_RDn;\r |
| | 77 | input I_VID_RAM_WRn;\r |
| | 78 | \r |
| | 79 | output O_C_BLnX;\r |
| | 80 | output O_8HF;\r |
| | 81 | output O_256HnX;\r |
| | 82 | output O_1VF;\r |
| | 83 | output O_MISSILEn;\r |
| | 84 | output O_SHELLn;\r |
| | 85 | \r |
| | 86 | output [7:0]O_BD;\r |
| | 87 | output [1:0]O_VID;\r |
| | 88 | output [2:0]O_COL;\r |
| | 89 | \r |
| | 90 | wire WB_LDn;\r |
| | 91 | wire WB_CNTRLDn;\r |
| | 92 | wire WB_CNTRCLRn;\r |
| | 93 | wire WB_COLLn;\r |
| | 94 | wire WB_VPLn;\r |
| | 95 | wire WB_OBJDATALn;\r |
| | 96 | wire WB_MLDn;\r |
| | 97 | wire WB_SLDn;\r |
| | 98 | wire W_3D;\r |
| | 99 | reg W_LDn;\r |
| | 100 | reg W_CNTRLDn;\r |
| | 101 | reg W_CNTRCLRn;\r |
| | 102 | reg W_COLLn;\r |
| | 103 | reg W_VPLn;\r |
| | 104 | reg W_OBJDATALn;\r |
| | 105 | reg W_MLDn;\r |
| | 106 | reg W_SLDn;\r |
| | 107 | \r |
| | 108 | always@(negedge I_CLK_12M)\r |
| | 109 | begin\r |
| | 110 | W_LDn <= WB_LDn;\r |
| | 111 | W_CNTRLDn <= WB_CNTRLDn;\r |
| | 112 | W_CNTRCLRn <= WB_CNTRCLRn;\r |
| | 113 | W_COLLn <= WB_COLLn;\r |
| | 114 | W_VPLn <= WB_VPLn;\r |
| | 115 | W_OBJDATALn <= WB_OBJDATALn;\r |
| | 116 | W_MLDn <= WB_MLDn;\r |
| | 117 | W_SLDn <= WB_SLDn;\r |
| | 118 | end\r |
| | 119 | \r |
| | 120 | mc_ld_pls LD_PLS(\r |
| | 121 | \r |
| | 122 | .I_CLK_6M(I_CLK_6M),\r |
| | 123 | .I_H_CNT(I_H_CNT),\r |
| | 124 | .I_3D_DI(W_3D),\r |
| | 125 | \r |
| | 126 | .O_LDn(WB_LDn),\r |
| | 127 | .O_CNTRLDn(WB_CNTRLDn),\r |
| | 128 | .O_CNTRCLRn(WB_CNTRCLRn),\r |
| | 129 | .O_COLLn(WB_COLLn),\r |
| | 130 | .O_VPLn(WB_VPLn),\r |
| | 131 | .O_OBJDATALn(WB_OBJDATALn),\r |
| | 132 | .O_MLDn(WB_MLDn),\r |
| | 133 | .O_SLDn(WB_SLDn)\r |
| | 134 | \r |
| | 135 | );\r |
| | 136 | \r |
| | 137 | wire W_H_FLIP1 = ~I_H_CNT[8]&I_H_FLIP;\r |
| | 138 | \r |
| | 139 | wire [7:3]W_HF_CNT = I_H_CNT[7:3]^{5{W_H_FLIP1}};\r |
| | 140 | wire [7:0]W_VF_CNT = I_V_CNT[7:0]^{8{I_V_FLIP}};\r |
| | 141 | \r |
| | 142 | assign O_8HF = W_HF_CNT[3];\r |
| | 143 | assign O_1VF = W_VF_CNT[0];\r |
| | 144 | \r |
| | 145 | reg [7:0]W_OBJ_D;\r |
| | 146 | wire [3:0]W_6J_DA = {I_H_FLIP , W_HF_CNT[7],W_HF_CNT[3],I_H_CNT[2]};\r |
| | 147 | wire [3:0]W_6J_DB = {W_OBJ_D[6],W_HF_CNT[3]&I_H_CNT[1], I_H_CNT[2],I_H_CNT[1]};\r |
| | 148 | wire [3:0]W_6J_Q = I_H_CNT[8] ? W_6J_DB:W_6J_DA;\r |
| | 149 | \r |
| | 150 | wire W_H_FLIP2 = W_6J_Q[3];\r |
| | 151 | // Prats 4F,5F\r |
| | 152 | wire [7:0]W_OBJ_RAM_AB = {1'b0,I_H_CNT[8],W_6J_Q[2],W_HF_CNT[6:4],W_6J_Q[1:0]};\r |
| | 153 | wire [7:0]W_OBJ_RAM_A = I_OBJ_RAM_RQn ? W_OBJ_RAM_AB: I_A[7:0] ;\r |
| | 154 | \r |
| | 155 | wire [7:0]W_OBJ_RAM_DOA,W_OBJ_RAM_DOB;\r |
| | 156 | \r |
| | 157 | reg [7:0]W_H_POSI;\r |
| | 158 | always@(posedge I_CLK_12M) W_H_POSI <= W_OBJ_RAM_DOB;\r |
| | 159 | \r |
| | 160 | mc_obj_ram OBJ_RAM(\r |
| | 161 | \r |
| | 162 | .I_CLKA(I_CLK_12M),\r |
| | 163 | .I_ADDRA(I_A[7:0]),\r |
| | 164 | .I_WEA(~I_OBJ_RAM_WRn),\r |
| | 165 | .I_CEA(~I_OBJ_RAM_RQn),\r |
| | 166 | .I_DA(I_BD),\r |
| | 167 | .O_DA(W_OBJ_RAM_DOA),\r |
| | 168 | \r |
| | 169 | .I_CLKB(I_CLK_12M),\r |
| | 170 | .I_ADDRB(W_OBJ_RAM_AB),\r |
| | 171 | .I_WEB(1'b0),\r |
| | 172 | .I_CEB(1'b1),\r |
| | 173 | .I_DB(8'h00),\r |
| | 174 | .O_DB(W_OBJ_RAM_DOB)\r |
| | 175 | \r |
| | 176 | );\r |
| | 177 | \r |
| | 178 | wire [7:0]W_OBJ_RAM_D = I_OBJ_RAM_RDn ? 8'h00: W_OBJ_RAM_DOA;\r |
| | 179 | // Prats 4L\r |
| | 180 | always@(posedge W_OBJDATALn) W_OBJ_D <= W_H_POSI; \r |
| | 181 | // Prats 4,5N\r |
| | 182 | \r |
| | 183 | wire [8:0]W_45N_Q = W_VF_CNT[7:0] + W_H_POSI ;\r |
| | 184 | assign W_3D = ~(&W_45N_Q[7:0]); \r |
| | 185 | \r |
| | 186 | reg [7:0]W_2M_Q;\r |
| | 187 | always@(posedge W_VPLn or negedge I_V_BLn)\r |
| | 188 | begin\r |
| | 189 | if(I_V_BLn==1'b0)\r |
| | 190 | W_2M_Q <= 0;\r |
| | 191 | else\r |
| | 192 | W_2M_Q <= W_45N_Q[7:0];\r |
| | 193 | end\r |
| | 194 | \r |
| | 195 | wire W_2N = I_H_CNT[8]&W_OBJ_D[7];\r |
| | 196 | wire [3:0]W_1M = W_2M_Q[3:0]^{W_2N,W_2N,W_2N,W_2N};\r |
| | 197 | \r |
| | 198 | wire W_VID_RAM_CSn = I_VID_RAM_RDn & I_VID_RAM_WRn;\r |
| | 199 | \r |
| | 200 | wire [7:0]W_VID_RAM_DI = I_VID_RAM_WRn ? 8'h00 : I_BD ;\r |
| | 201 | wire [7:0]W_VID_RAM_DOA;\r |
| | 202 | \r |
| | 203 | wire [11:0]W_VID_RAM_AA = {~(&W_2M_Q[7:4]),W_VID_RAM_CSn, 10'h00 /*I_A[9:0]*/};\r |
| | 204 | wire [11:0]W_VID_RAM_AB = { 1'b0, 1'b0,W_2M_Q[7:4],W_1M[3],W_HF_CNT[7:3]};\r |
| | 205 | \r |
| | 206 | wire [11:0]W_VID_RAM_A = I_C_BLn ? W_VID_RAM_AB:W_VID_RAM_AA;\r |
| | 207 | \r |
| | 208 | wire [7:0]W_VID_RAM_D = I_VID_RAM_RDn ? 8'h00 :W_VID_RAM_DOA;\r |
| | 209 | \r |
| | 210 | wire [7:0]W_VID_RAM_DOB;\r |
| | 211 | \r |
| | 212 | mc_vid_ram VID_RAM(\r |
| | 213 | \r |
| | 214 | .I_CLKA(I_CLK_12M),\r |
| | 215 | .I_ADDRA(I_A[9:0]),\r |
| | 216 | .I_DA(W_VID_RAM_DI),\r |
| | 217 | .I_WEA(~I_VID_RAM_WRn),\r |
| | 218 | .I_CEA(~W_VID_RAM_CSn),\r |
| | 219 | .O_DA(W_VID_RAM_DOA),\r |
| | 220 | \r |
| | 221 | .I_CLKB(I_CLK_12M),\r |
| | 222 | .I_ADDRB(W_VID_RAM_A[9:0]),\r |
| | 223 | .I_DB(8'h00),\r |
| | 224 | .I_WEB(1'b0),\r |
| | 225 | .I_CEB(1'b1),\r |
| | 226 | .O_DB(W_VID_RAM_DOB)\r |
| | 227 | \r |
| | 228 | );\r |
| | 229 | //-- VIDEO DATA OUTPUT --------------\r |
| | 230 | assign O_BD = W_OBJ_RAM_D | W_VID_RAM_D;\r |
| | 231 | \r |
| | 232 | wire W_SRLD = ~(W_LDn | W_VID_RAM_A[11]);\r |
| | 233 | \r |
| | 234 | wire [7:0]W_OBJ_ROM_AB = {W_OBJ_D[5:0],W_1M[3],W_OBJ_D[6]^I_H_CNT[3]};\r |
| | 235 | \r |
| | 236 | wire [7:0]W_OBJ_ROM_A = I_H_CNT[8] ? W_OBJ_ROM_AB: W_VID_RAM_DOB;\r |
| | 237 | \r |
| | 238 | wire [10:0]W_O_OBJ_ROM_A = {W_OBJ_ROM_A,W_1M[2:0]};\r |
| | 239 | \r |
| | 240 | wire [7:0]W_1K_D;\r |
| | 241 | wire [7:0]W_1H_D;\r |
| | 242 | \r |
| | 243 | //1K VID-Rom\r |
| | 244 | GALAXIAN_1K K_ROM(\r |
| | 245 | .CLK(I_CLK_12M),\r |
| | 246 | .ADDR(W_O_OBJ_ROM_A),\r |
| | 247 | .DATA(W_1K_D),\r |
| | 248 | .ENA(1'b1)\r |
| | 249 | );\r |
| | 250 | \r |
| | 251 | //1H VID-Rom\r |
| | 252 | GALAXIAN_1H H_ROM(\r |
| | 253 | .CLK(I_CLK_12M),\r |
| | 254 | .ADDR(W_O_OBJ_ROM_A),\r |
| | 255 | .DATA(W_1H_D),\r |
| | 256 | .ENA(1'b1)\r |
| | 257 | );\r |
| | 258 | \r |
| | 259 | \r |
| | 260 | //---------------------------------------------------------------------------------\r |
| | 261 | wire W_2L_Qa,W_2K_Qd;\r |
| | 262 | wire W_2J_Qa,W_2H_Qd;\r |
| | 263 | wire W_H_FLIP2X;\r |
| | 264 | \r |
| | 265 | wire [3:0]W_3L_A = {W_2J_Qa,W_2L_Qa, 1'b1,W_SRLD};\r |
| | 266 | wire [3:0]W_3L_B = {W_2H_Qd,W_2K_Qd,W_SRLD, 1'b1}; \r |
| | 267 | wire [3:0]W_3L_Y = W_H_FLIP2X ? W_3L_B: W_3L_A; // [3]=RAW1,[2]=RAW0\r |
| | 268 | \r |
| | 269 | wire W_RAW0 = W_3L_Y[2];\r |
| | 270 | wire W_RAW1 = W_3L_Y[3];\r |
| | 271 | \r |
| | 272 | wire W_SRCLK = I_CLK_6M;\r |
| | 273 | //------ PARTS 2KL ---------------------------------------------- \r |
| | 274 | wire [1:0]C_2KL = W_3L_Y[1:0];\r |
| | 275 | wire [7:0]I_2KL = W_1K_D;\r |
| | 276 | reg [7:0]reg_2KL;\r |
| | 277 | \r |
| | 278 | assign W_2L_Qa = reg_2KL[7];\r |
| | 279 | assign W_2K_Qd = reg_2KL[0];\r |
| | 280 | always@(posedge W_SRCLK)\r |
| | 281 | begin\r |
| | 282 | case(C_2KL)\r |
| | 283 | 2'b00: reg_2KL <= reg_2KL;\r |
| | 284 | 2'b10: reg_2KL <= {reg_2KL[6:0],1'b0};\r |
| | 285 | 2'b01: reg_2KL <= {1'b0,reg_2KL[7:1]};\r |
| | 286 | 2'b11: reg_2KL <= I_2KL;\r |
| | 287 | endcase\r |
| | 288 | end\r |
| | 289 | //------ PARTS 2HJ ---------------------------------------------- \r |
| | 290 | wire [1:0]C_2HJ = W_3L_Y[1:0];\r |
| | 291 | wire [7:0]I_2HJ = W_1H_D;\r |
| | 292 | reg [7:0]reg_2HJ;\r |
| | 293 | \r |
| | 294 | assign W_2J_Qa = reg_2HJ[7];\r |
| | 295 | assign W_2H_Qd = reg_2HJ[0];\r |
| | 296 | always@(posedge W_SRCLK)\r |
| | 297 | begin\r |
| | 298 | case(C_2HJ)\r |
| | 299 | 2'b00: reg_2HJ <= reg_2HJ;\r |
| | 300 | 2'b10: reg_2HJ <= {reg_2HJ[6:0],1'b0};\r |
| | 301 | 2'b01: reg_2HJ <= {1'b0,reg_2HJ[7:1]};\r |
| | 302 | 2'b11: reg_2HJ <= I_2HJ;\r |
| | 303 | endcase\r |
| | 304 | end\r |
| | 305 | \r |
| | 306 | //----- SHT2 -----------------------------------------------------\r |
| | 307 | // Prats 6K\r |
| | 308 | reg [2:0]W_6K_Q;\r |
| | 309 | always@(posedge W_COLLn) W_6K_Q <= W_H_POSI[2:0];\r |
| | 310 | \r |
| | 311 | // Prats 6P\r |
| | 312 | reg [6:0]W_6P_Q;\r |
| | 313 | always@(posedge I_CLK_6M)\r |
| | 314 | begin\r |
| | 315 | if(W_LDn==1'b0) W_6P_Q <= {W_H_FLIP2,W_H_FLIP1,I_C_BLn,~I_H_CNT[8],W_6K_Q[2:0]};\r |
| | 316 | else W_6P_Q <= W_6P_Q;\r |
| | 317 | end\r |
| | 318 | \r |
| | 319 | assign W_H_FLIP2X = W_6P_Q[6];\r |
| | 320 | wire W_H_FLIP1X = W_6P_Q[5];\r |
| | 321 | wire W_C_BLnX = W_6P_Q[4];\r |
| | 322 | wire W_256HnX = W_6P_Q[3];\r |
| | 323 | wire [2:0]W_CD = W_6P_Q[2:0];\r |
| | 324 | \r |
| | 325 | assign O_256HnX = W_256HnX;\r |
| | 326 | assign O_C_BLnX = W_C_BLnX;\r |
| | 327 | \r |
| | 328 | wire W_45T_CLR = W_CNTRCLRn | W_256HnX ;\r |
| | 329 | reg [7:0]W_45T_Q;\r |
| | 330 | \r |
| | 331 | always@(posedge I_CLK_6M)\r |
| | 332 | begin\r |
| | 333 | if(W_45T_CLR==1'b0)\r |
| | 334 | W_45T_Q <= 0;\r |
| | 335 | else if(W_CNTRLDn==1'b0)\r |
| | 336 | W_45T_Q <= W_H_POSI;\r |
| | 337 | else\r |
| | 338 | W_45T_Q <= W_45T_Q + 1;\r |
| | 339 | end\r |
| | 340 | \r |
| | 341 | wire [7:0]W_LRAM_A = W_45T_Q^{8{W_H_FLIP1X}};\r |
| | 342 | \r |
| | 343 | wire [4:0]W_LRAM_DI;\r |
| | 344 | wire [4:0]W_LRAM_DO;\r |
| | 345 | \r |
| | 346 | reg [1:0]W_RV;\r |
| | 347 | reg [2:0]W_RC;\r |
| | 348 | \r |
| | 349 | always@(negedge I_CLK_6M)\r |
| | 350 | begin\r |
| | 351 | W_RV <= W_LRAM_DO[1:0]; \r |
| | 352 | W_RC <= W_LRAM_DO[4:2];\r |
| | 353 | end\r |
| | 354 | \r |
| | 355 | wire W_LRAM_AND = ~(~((W_LRAM_A[4]|W_LRAM_A[5])|(W_LRAM_A[6]|W_LRAM_A[7]))|W_256HnX );\r |
| | 356 | wire W_RAW_OR = W_RAW0 | W_RAW1 ;\r |
| | 357 | \r |
| | 358 | wire [1:0]W_VID;\r |
| | 359 | wire [2:0]W_COL;\r |
| | 360 | \r |
| | 361 | assign W_VID[0] = ~(~(W_RAW0&W_RV[1])&W_RV[0]);\r |
| | 362 | assign W_VID[1] = ~(~(W_RAW1&W_RV[0])&W_RV[1]);\r |
| | 363 | assign W_COL[0] = ~(~(W_RAW_OR&W_CD[0]&W_RC[1]&W_RC[2])&W_RC[0]);\r |
| | 364 | assign W_COL[1] = ~(~(W_RAW_OR&W_CD[1]&W_RC[2]&W_RC[0])&W_RC[1]);\r |
| | 365 | assign W_COL[2] = ~(~(W_RAW_OR&W_CD[2]&W_RC[0]&W_RC[1])&W_RC[2]);\r |
| | 366 | \r |
| | 367 | assign O_VID = W_VID;\r |
| | 368 | assign O_COL = W_COL;\r |
| | 369 | \r |
| | 370 | assign W_LRAM_DI[0] = W_LRAM_AND&W_VID[0];\r |
| | 371 | assign W_LRAM_DI[1] = W_LRAM_AND&W_VID[1]; \r |
| | 372 | assign W_LRAM_DI[2] = W_LRAM_AND&W_COL[0];\r |
| | 373 | assign W_LRAM_DI[3] = W_LRAM_AND&W_COL[1];\r |
| | 374 | assign W_LRAM_DI[4] = W_LRAM_AND&W_COL[2];\r |
| | 375 | \r |
| | 376 | mc_lram LRAM(\r |
| | 377 | \r |
| | 378 | .I_CLK(I_CLK_18M),\r |
| | 379 | .I_ADDR(W_LRAM_A),\r |
| | 380 | .I_WE(I_CLK_6M),\r |
| | 381 | .I_D(W_LRAM_DI),\r |
| | 382 | .O_Dn(W_LRAM_DO)\r |
| | 383 | \r |
| | 384 | );\r |
| | 385 | \r |
| | 386 | mc_missile MISSILE(\r |
| | 387 | \r |
| | 388 | .I_CLK_18M(I_CLK_18M),\r |
| | 389 | .I_CLK_6M(I_CLK_6M),\r |
| | 390 | .I_C_BLn_X(W_C_BLnX),\r |
| | 391 | .I_MLDn(W_MLDn),\r |
| | 392 | .I_SLDn(W_SLDn),\r |
| | 393 | .I_HPOS(W_H_POSI),\r |
| | 394 | \r |
| | 395 | .O_MISSILEn(O_MISSILEn),\r |
| | 396 | .O_SHELLn(O_SHELLn)\r |
| | 397 | \r |
| | 398 | );\r |
| | 399 | \r |
| | 400 | endmodule\r |
| | 401 | \r |
| | 402 | \r |
projects / fpga-games / blame_incremental