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`define ONE (32'h1 << `SCALE) `timescale 1ns / 1ps `include "aDefinitions.v" /********************************************************************************** Theia, Ray Cast Programable graphic Processing Unit. Copyright (C) 2010 Diego Valverde (diego.valverde.g@gmail.com) This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ***********************************************************************************/ /* I can't synthesize roms, the rom needs to be adapted depending on the final target silicon. */ //-------------------------------------------------------- module ROM ( input wire[`ROM_ADDRESS_WIDTH-1:0] Address, `ifdef DEBUG input wire [`MAX_CORES-1:0] iDebug_CoreID, `endif output reg [`INSTRUCTION_WIDTH-1:0] I ); always @( Address ) begin case (Address) //Hardcoded stuff :( `define RAY_INSIDE_BOX `R3 `define CURRENT_LIGHT_POS `CREG_FIRST_LIGTH //TODO: CAHNEG T `define CURRENT_LIGHT_DIFFUSE 16'h6 //----------------------------------------------------------------- `define TAG_PIXELSHADER 16'd311 `define TAG_USERCONSTANTS 16'd309 `define TAG_PSU_UCODE_ADRESS2 16'd281 `define TAG_PSU_UCODE_ADRESS 16'd265 `define LABEL_TCC_EXIT 16'd264 `define TAG_TCC_UCODE_ADDRESS 16'd223 `define LABEL_BIU4 16'd222 `define LABEL_BIU3 16'd211 `define LABEL_BIU2 16'd207 `define LABEL_BIU1 16'd204 `define TAG_BIU_UCODE_ADDRESS 16'd186 `define LABEL_HIT 16'd184 `define LABEL15 16'd182 `define LABEL14 16'd180 `define LABEL13 16'd178 `define LABEL_TEST_XY_PLANE 16'd173 `define LABEL12 16'd171 `define LABEL11 16'd169 `define LABEL10 16'd167 `define LABEL_TEST_XZ_PLANE 16'd161 `define LABEL9 16'd159 `define LABEL8 16'd157 `define LABEL7 16'd155 `define LABEL_TEST_YZ_PLANE 16'd149 `define LABEL_RAY_INSIDE_BOX 16'd146 `define LABEL_ELSEZ 16'd145 `define LABEL6 16'd142 `define LABEL_ELESE_IFZ 16'd138 `define LABEL5 16'd135 `define LABEL_TEST_RAY_Z_ORIGEN 16'd131 `define LABEL_ELSEY 16'd130 `define LABEL4 16'd127 `define LABEL_ELESE_IFY 16'd123 `define LABEL3 16'd120 `define LABEL_TEST_RAY_Y_ORIGEN 16'd116 `define LABEL_ELSEX 16'd115 `define LABEL2 16'd112 `define LABEL_ELSE_IFX 16'd108 `define LABEL1 16'd105 `define LABEL_TEST_RAY_X_ORIGEN 16'd101 `define TAG_AABBIU_UCODE_ADDRESS 16'd98 `define LABEL_ALLDONE 16'd96 `define LABEL_NPG_NEXT_ROW 16'd91 `define TAG_NPG_UCODE_ADDRESS 16'd82 `define TAG_RGU_UCODE_ADDRESS 16'd74 `define TAG_CPPU_UCODE_ADDRESS 16'd70 `define LABEL_MAIN_RENDER_DONE 16'd69 `define LABEL_MAIN_IS_NO_HIT 16'd62 `define LABEL_MAIN_IS_HIT 16'd51 `define LABEL_MAIN_CHECK_HIT 16'd50 `define LABEL_DEC_PRIM_COUNT 16'd47 `define LABEL_MAIN_TEST_INTERSECTION 16'd42 `define TAG_ADRR_MAIN 16'd37 //------------------------------------------------------------------------- //Default values for some registers after reset //------------------------------------------------------------------------- //This is the first code that gets executed after the machine is //externally configured ie after the MST_I goes from 1 to zero. //It sets initial values for some of the internal registers 0: I = { `ZERO ,`CREG_LAST_t ,`VOID ,`VOID }; //Set the last 't' to very positive value(500) 1: I = { `SETX ,`CREG_LAST_t ,32'h1F40000 }; 2: I = { `ZERO ,`OREG_PIXEL_COLOR ,`VOID ,`VOID }; 3: I = { `COPY ,`CREG_PIXEL_2D_POSITION ,`CREG_PIXEL_2D_INITIAL_POSITION ,`VOID }; //Calculate the initial linear address for ADR_O //this is: (X_initial + RESOLUTION_Y*Y_intial) * 3. //Notice that we need to use 'unscaled' ie. integer //values because the resuts of the multiplication by //the resoluction is to large to fit a fixed point //representation. 4: I = { `COPY ,`R1 ,`CREG_RESOLUTION ,`VOID }; 5: I = { `UNSCALE ,`R1 ,`R1 ,`VOID }; 6: I = { `SETX ,`R1 ,32'h1 }; 7: I = { `SETZ ,`R1 ,32'h0 }; 8: I = { `COPY ,`R2 ,`CREG_PIXEL_2D_INITIAL_POSITION ,`VOID }; 9: I = { `UNSCALE ,`R2 ,`R2 ,`VOID }; //Ok lets start by calculating RESOLUTION_Y*Y_intial 10: I = { `IMUL ,`R1 ,`R1 ,`R2 }; 11: I = { `COPY ,`R2 ,`R1 ,`VOID }; 12: I = { `SWIZZLE3D ,`R2 ,`SWIZZLE_YYY }; //now X_initial + RESOLUTION_Y*Y_intial 13: I = { `ADD ,`R3 ,`R1 ,`R2 }; 14: I = { `COPY ,`R2 ,`R1 ,`VOID }; 15: I = { `SWIZZLE3D ,`R2 ,`SWIZZLE_ZZZ }; 16: I = { `ADD ,`R3 ,`R3 ,`R2 }; 17: I = { `SWIZZLE3D ,`R3 ,`SWIZZLE_XXX }; //finally multiply by 3 to get: //(X_initial + RESOLUTION_Y*Y_intial) * 3 voila! 18: I = { `SETX ,`R2 ,32'h3 }; 19: I = { `SWIZZLE3D ,`R2 ,`SWIZZLE_XXX }; 20: I = { `IMUL ,`CREG_PIXEL_PITCH ,`R3 ,`R2 }; //By this point you should be wondering why not //just do DOT R1 [1 Resolution_Y 0] [X_intial Y_intial 0 ]? //well because DOT uses fixed point and the result may not //fit :( //Transform from fixed point to integer //UNSCALE CREG_PIXEL_PITCH CREG_PIXEL_PITCH VOID 21: I = { `COPY ,`OREG_ADDR_O ,`CREG_PIXEL_PITCH ,`VOID }; 22: I = { `SETX ,`CREG_3 ,32'h3 }; 23: I = { `SWIZZLE3D ,`CREG_3 ,`SWIZZLE_XXX }; 24: I = { `SETX ,`CREG_012 ,32'h0 }; 25: I = { `SETY ,`CREG_012 ,32'h1 }; 26: I = { `SETZ ,`CREG_012 ,32'h2 }; 27: I = { `COPY ,`CREG_CURRENT_OUTPUT_PIXEL ,`CREG_012 ,`VOID }; 28: I = { `ZERO ,`CREG_TEXTURE_COLOR ,`VOID ,`VOID }; 29: I = { `ZERO ,`CREG_ZERO ,`VOID ,`VOID }; 30: I = { `ZERO ,`R1 ,`VOID ,`VOID }; 31: I = { `ZERO ,`R2 ,`VOID ,`VOID }; 32: I = { `ZERO ,`R3 ,`VOID ,`VOID }; 33: I = { `ZERO ,`R4 ,`VOID ,`VOID }; 34: I = { `ZERO ,`R5 ,`VOID ,`VOID }; 35: I = { `ZERO ,`R99 ,`VOID ,`VOID }; 36: I = { `RETURN ,`RT_TRUE }; //--------------------------------------------------------------------- //This is the main sub-routine //TAG_ADRR_MAIN: 37: I = { `NOP ,`RT_FALSE }; //Generate the ray, but this is wrong, it has to generate only once for all the triangles.. 38: I = { `JNEX ,`LABEL_MAIN_TEST_INTERSECTION ,`CREG_PRIMITIVE_COUNT ,`CREG_MAX_PRIMITIVES }; 39: I = { `CALL ,`ENTRYPOINT_ADRR_RGU ,`VOID ,`VOID }; 40: I = { `ZERO ,`CREG_HIT ,`VOID ,`VOID }; 41: I = { `RESCALE ,`CREG_PRIMITIVE_COUNT ,`CREG_MAX_PRIMITIVES ,`VOID }; //LABEL_MAIN_TEST_INTERSECTION: //Check ofr triangle intersection 42: I = { `NOP ,`RT_FALSE }; 43: I = { `CALL ,`ENTRYPOINT_ADRR_BIU ,`VOID ,`VOID }; 44: I = { `NOP ,`RT_FALSE }; 45: I = { `JEQX ,`LABEL_DEC_PRIM_COUNT ,`R99 ,`CREG_ZERO }; 46: I = { `COPY ,`CREG_HIT ,`R99 ,`VOID }; //LABEL_DEC_PRIM_COUNT: 47: I = { `DEC ,`CREG_PRIMITIVE_COUNT ,`CREG_PRIMITIVE_COUNT ,`VOID }; 48: I = { `JEQX ,`LABEL_MAIN_CHECK_HIT ,`CREG_PRIMITIVE_COUNT ,`CREG_ZERO }; 49: I = { `RETURN ,`RT_FALSE }; //LABEL_MAIN_CHECK_HIT: 50: I = { `JEQX ,`LABEL_MAIN_IS_NO_HIT ,`CREG_HIT ,`CREG_ZERO }; //LABEL_MAIN_IS_HIT: 51: I = { `NOP ,`RT_FALSE }; 52: I = { `CALL ,`ENTRYPOINT_ADRR_TCC ,`VOID ,`VOID }; 53: I = { `NOP ,`RT_FALSE }; 54: I = { `CALL ,`ENTRYPOINT_ADRR_PSU2 ,`VOID ,`VOID }; 55: I = { `NOP ,`RT_FALSE }; 56: I = { `CALL ,`ENTRYPOINT_ADRR_PIXELSHADER ,`VOID ,`VOID }; 57: I = { `NOP ,`RT_FALSE }; 58: I = { `CALL ,`ENTRYPOINT_ADRR_NPG ,`VOID ,`VOID }; 59: I = { `NOP ,`RT_FALSE }; 60: I = { `JEQX ,`LABEL_MAIN_RENDER_DONE ,`R99 ,`CREG_ZERO }; 61: I = { `RETURN ,`RT_TRUE }; //LABEL_MAIN_IS_NO_HIT: 62: I = { `NOP ,`RT_FALSE }; 63: I = { `CALL ,`ENTRYPOINT_ADRR_PIXELSHADER ,`VOID ,`VOID }; 64: I = { `NOP ,`RT_FALSE }; 65: I = { `CALL ,`ENTRYPOINT_ADRR_NPG ,`VOID ,`VOID }; 66: I = { `NOP ,`RT_FALSE }; 67: I = { `JNEX ,`LABEL_MAIN_RENDER_DONE ,`R99 ,`CREG_ZERO }; 68: I = { `RETURN ,`RT_TRUE }; //LABEL_MAIN_RENDER_DONE: 69: I = { `RETURN ,`RT_TRUE }; //---------------------------------------------------------------------- //Micro code for CPPU //TAG_CPPU_UCODE_ADDRESS: 70: I = { `SUB ,`R1 ,`CREG_PROJECTION_WINDOW_MAX ,`CREG_PROJECTION_WINDOW_MIN }; 71: I = { `DIV ,`CREG_PROJECTION_WINDOW_SCALE ,`R1 ,`CREG_RESOLUTION }; 72: I = { `COPY ,`CREG_PRIMITIVE_COUNT ,`CREG_MAX_PRIMITIVES ,`VOID }; 73: I = { `RETURN ,`RT_FALSE }; //---------------------------------------------------------------------- //Micro code for RGU //TAG_RGU_UCODE_ADDRESS: 74: I = { `MUL ,`R1 ,`CREG_PIXEL_2D_POSITION ,`CREG_PROJECTION_WINDOW_SCALE }; 75: I = { `ADD ,`R1 ,`R1 ,`CREG_PROJECTION_WINDOW_MIN }; 76: I = { `SUB ,`CREG_UNORMALIZED_DIRECTION ,`R1 ,`CREG_CAMERA_POSITION }; 77: I = { `MAG ,`R2 ,`CREG_UNORMALIZED_DIRECTION ,`VOID }; 78: I = { `DIV ,`CREG_RAY_DIRECTION ,`CREG_UNORMALIZED_DIRECTION ,`R2 }; 79: I = { `DEC ,`CREG_LAST_COL ,`CREG_PIXEL_2D_FINAL_POSITION ,`VOID }; 80: I = { `SETX ,`CREG_LAST_t ,32'h1F40000 }; 81: I = { `RET ,`R99 ,`TRUE }; //---------------------------------------------------------------------- //Next Pixel generation Code (NPG) //TAG_NPG_UCODE_ADDRESS: 82: I = { `COPY ,`CREG_PRIMITIVE_COUNT ,`CREG_MAX_PRIMITIVES ,`VOID }; 83: I = { `ZERO ,`CREG_TEXTURE_COLOR ,`VOID ,`VOID }; 84: I = { `SETX ,`CREG_TEXTURE_COLOR ,32'h60000 }; 85: I = { `ADD ,`CREG_CURRENT_OUTPUT_PIXEL ,`CREG_CURRENT_OUTPUT_PIXEL ,`CREG_3 }; 86: I = { `ADD ,`CREG_PIXEL_PITCH ,`CREG_PIXEL_PITCH ,`CREG_3 }; 87: I = { `COPY ,`OREG_ADDR_O ,`CREG_PIXEL_PITCH ,`VOID }; 88: I = { `JGEX ,`LABEL_NPG_NEXT_ROW ,`CREG_PIXEL_2D_POSITION ,`CREG_LAST_COL }; 89: I = { `INCX ,`CREG_PIXEL_2D_POSITION ,`CREG_PIXEL_2D_POSITION ,`VOID }; 90: I = { `RET ,`R99 ,`FALSE }; //LABEL_NPG_NEXT_ROW: 91: I = { `SETX ,`CREG_PIXEL_2D_POSITION ,32'h0 }; 92: I = { `INCY ,`CREG_PIXEL_2D_POSITION ,`CREG_PIXEL_2D_POSITION ,`VOID }; 93: I = { `JGEY ,`LABEL_ALLDONE ,`CREG_PIXEL_2D_POSITION ,`CREG_PIXEL_2D_FINAL_POSITION }; 94: I = { `NOP ,`RT_FALSE }; 95: I = { `RET ,`R99 ,`FALSE }; //LABEL_ALLDONE: 96: I = { `NOP ,`RT_FALSE }; 97: I = { `RET ,`R99 ,`TRUE }; //---------------------------------------------------------------------- //Micro code for AABBIU //TAG_AABBIU_UCODE_ADDRESS: 98: I = { `ZERO ,`R3 ,`VOID ,`VOID }; 99: I = { `SETX ,`CREG_LAST_t ,32'h1F40000 }; 100: I = { `RETURN ,`RT_TRUE }; //LABEL_TEST_RAY_X_ORIGEN: 101: I = { `JGEX ,`LABEL_ELSE_IFX ,`CREG_CAMERA_POSITION ,`CREG_AABBMIN }; 102: I = { `SUB ,`R1 ,`CREG_AABBMIN ,`CREG_CAMERA_POSITION }; 103: I = { `JLEX ,`LABEL1 ,`R1 ,`CREG_UNORMALIZED_DIRECTION }; 104: I = { `RETURN ,`RT_FALSE }; //LABEL1: 105: I = { `SETX ,`RAY_INSIDE_BOX ,32'd0 }; 106: I = { `DIV ,`R6 ,`R1 ,`CREG_UNORMALIZED_DIRECTION }; 107: I = { `JMP ,`LABEL_TEST_RAY_Y_ORIGEN ,`VOID ,`VOID }; //LABEL_ELSE_IFX: 108: I = { `JLEX ,`LABEL_ELSEX ,`CREG_CAMERA_POSITION ,`CREG_AABBMAX }; 109: I = { `SUB ,`R1 ,`CREG_AABBMAX ,`CREG_CAMERA_POSITION }; 110: I = { `JGEX ,`LABEL2 ,`R1 ,`CREG_UNORMALIZED_DIRECTION }; 111: I = { `RETURN ,`RT_FALSE }; //LABEL2: 112: I = { `SETX ,`RAY_INSIDE_BOX ,32'd0 }; 113: I = { `DIV ,`R6 ,`R1 ,`CREG_UNORMALIZED_DIRECTION }; 114: I = { `JMP ,`LABEL_TEST_RAY_Y_ORIGEN ,`VOID ,`VOID }; //LABEL_ELSEX: 115: I = { `SETX ,`R5 ,32'b1 }; //LABEL_TEST_RAY_Y_ORIGEN: 116: I = { `JGEY ,`LABEL_ELESE_IFY ,`CREG_CAMERA_POSITION ,`CREG_AABBMIN }; 117: I = { `SUB ,`R1 ,`CREG_AABBMIN ,`CREG_CAMERA_POSITION }; 118: I = { `JLEY ,`LABEL3 ,`R1 ,`CREG_UNORMALIZED_DIRECTION }; 119: I = { `RETURN ,`RT_FALSE }; //LABEL3: 120: I = { `SETX ,`RAY_INSIDE_BOX ,32'd0 }; 121: I = { `DIV ,`R6 ,`R1 ,`CREG_UNORMALIZED_DIRECTION }; 122: I = { `JMP ,`LABEL_TEST_RAY_Z_ORIGEN ,`VOID ,`VOID }; //LABEL_ELESE_IFY: 123: I = { `JLEY ,`LABEL_ELSEY ,`CREG_CAMERA_POSITION ,`CREG_AABBMAX }; 124: I = { `SUB ,`R1 ,`CREG_AABBMAX ,`CREG_CAMERA_POSITION }; 125: I = { `JGEY ,`LABEL4 ,`R1 ,`CREG_UNORMALIZED_DIRECTION }; 126: I = { `RETURN ,`RT_FALSE }; //LABEL4: 127: I = { `SETX ,`RAY_INSIDE_BOX ,32'd0 }; 128: I = { `DIV ,`R6 ,`R1 ,`CREG_UNORMALIZED_DIRECTION }; 129: I = { `JMP ,`LABEL_TEST_RAY_Z_ORIGEN ,`VOID ,`VOID }; //LABEL_ELSEY: 130: I = { `SETY ,`R5 ,32'b1 }; //LABEL_TEST_RAY_Z_ORIGEN: 131: I = { `JGEZ ,`LABEL_ELESE_IFZ ,`CREG_CAMERA_POSITION ,`CREG_AABBMIN }; 132: I = { `SUB ,`R1 ,`CREG_AABBMIN ,`CREG_CAMERA_POSITION }; 133: I = { `JLEZ ,`LABEL5 ,`R1 ,`CREG_UNORMALIZED_DIRECTION }; 134: I = { `RETURN ,`RT_FALSE }; //LABEL5: 135: I = { `SETX ,`RAY_INSIDE_BOX ,32'd0 }; 136: I = { `DIV ,`R6 ,`R1 ,`CREG_UNORMALIZED_DIRECTION }; 137: I = { `JMP ,`LABEL_RAY_INSIDE_BOX ,`VOID ,`VOID }; //LABEL_ELESE_IFZ: 138: I = { `JLEZ ,`LABEL_ELSEZ ,`CREG_CAMERA_POSITION ,`CREG_AABBMAX }; 139: I = { `SUB ,`R1 ,`CREG_AABBMAX ,`CREG_CAMERA_POSITION }; 140: I = { `JGEZ ,`LABEL6 ,`R1 ,`CREG_UNORMALIZED_DIRECTION }; 141: I = { `RETURN ,`RT_FALSE }; //LABEL6: 142: I = { `SETX ,`RAY_INSIDE_BOX ,32'd0 }; 143: I = { `DIV ,`R6 ,`R1 ,`CREG_UNORMALIZED_DIRECTION }; 144: I = { `JMP ,`LABEL_RAY_INSIDE_BOX ,`VOID ,`VOID }; //LABEL_ELSEZ: 145: I = { `SETZ ,`R5 ,32'b1 }; //LABEL_RAY_INSIDE_BOX: 146: I = { `ZERO ,`R1 ,`VOID ,`VOID }; 147: I = { `JEQX ,`LABEL_TEST_YZ_PLANE ,`R1 ,`RAY_INSIDE_BOX }; //BUG need a NOP here else pipeline gets confused 148: I = { `RETURN ,`RT_TRUE }; //LABEL_TEST_YZ_PLANE: 149: I = { `JNEX ,`LABEL_TEST_XZ_PLANE ,`R5 ,`R1 }; 150: I = { `SWIZZLE3D ,`R6 ,`SWIZZLE_XXX }; 151: I = { `MUL ,`R2 ,`CREG_UNORMALIZED_DIRECTION ,`R6 }; 152: I = { `ADD ,`R2 ,`R2 ,`CREG_CAMERA_POSITION }; 153: I = { `JGEY ,`LABEL7 ,`R2 ,`CREG_AABBMIN }; 154: I = { `RETURN ,`RT_FALSE }; //LABEL7: 155: I = { `JLEY ,`LABEL8 ,`R2 ,`CREG_AABBMAX }; 156: I = { `RETURN ,`RT_FALSE }; //LABEL8: 157: I = { `JGEZ ,`LABEL9 ,`R2 ,`CREG_AABBMIN }; 158: I = { `RETURN ,`RT_FALSE }; //LABEL9: 159: I = { `JLEZ ,`LABEL_TEST_XZ_PLANE ,`R2 ,`CREG_AABBMAX }; 160: I = { `RETURN ,`RT_FALSE }; //LABEL_TEST_XZ_PLANE: 161: I = { `JNEY ,`LABEL_TEST_XY_PLANE ,`R5 ,`R1 }; 162: I = { `SWIZZLE3D ,`R6 ,`SWIZZLE_YYY }; 163: I = { `MUL ,`R2 ,`CREG_UNORMALIZED_DIRECTION ,`R6 }; 164: I = { `ADD ,`R2 ,`R2 ,`CREG_CAMERA_POSITION }; 165: I = { `JGEX ,`LABEL10 ,`R2 ,`CREG_AABBMIN }; 166: I = { `RETURN ,`RT_FALSE }; //LABEL10: 167: I = { `JLEX ,`LABEL11 ,`R2 ,`CREG_AABBMAX }; 168: I = { `RETURN ,`RT_FALSE }; //LABEL11: 169: I = { `JGEZ ,`LABEL12 ,`R2 ,`CREG_AABBMIN }; 170: I = { `RETURN ,`RT_FALSE }; //LABEL12: 171: I = { `JLEZ ,`LABEL_TEST_XY_PLANE ,`R2 ,`CREG_AABBMAX }; 172: I = { `RETURN ,`RT_FALSE }; //LABEL_TEST_XY_PLANE: 173: I = { `SWIZZLE3D ,`R6 ,`SWIZZLE_ZZZ }; 174: I = { `MUL ,`R2 ,`CREG_UNORMALIZED_DIRECTION ,`R6 }; 175: I = { `ADD ,`R2 ,`R2 ,`CREG_CAMERA_POSITION }; 176: I = { `JGEX ,`LABEL13 ,`R2 ,`CREG_AABBMIN }; 177: I = { `RETURN ,`RT_FALSE }; //LABEL13: 178: I = { `JLEX ,`LABEL14 ,`R2 ,`CREG_AABBMAX }; 179: I = { `RETURN ,`RT_FALSE }; //LABEL14: 180: I = { `JGEY ,`LABEL15 ,`R2 ,`CREG_AABBMIN }; 181: I = { `RETURN ,`RT_FALSE }; //LABEL15: 182: I = { `JLEY ,`LABEL_HIT ,`R2 ,`CREG_AABBMAX }; 183: I = { `RETURN ,`RT_FALSE }; //LABEL_HIT: 184: I = { `SETX ,`CREG_LAST_t ,32'h1F40000 }; 185: I = { `RETURN ,`RT_TRUE }; //------------------------------------------------------------------------ //BIU Micro code //TAG_BIU_UCODE_ADDRESS: 186: I = { `ZERO ,`OREG_PIXEL_COLOR ,`VOID ,`VOID }; 187: I = { `SETX ,`R3 ,`ONE }; 188: I = { `SETX ,`R1 ,32'h00000 }; 189: I = { `SUB ,`CREG_E1 ,`CREG_V1 ,`CREG_V0 }; 190: I = { `SUB ,`CREG_E2 ,`CREG_V2 ,`CREG_V0 }; 191: I = { `SUB ,`CREG_T ,`CREG_CAMERA_POSITION ,`CREG_V0 }; 192: I = { `CROSS ,`CREG_P ,`CREG_RAY_DIRECTION ,`CREG_E2 }; 193: I = { `CROSS ,`CREG_Q ,`CREG_T ,`CREG_E1 }; 194: I = { `DOT ,`CREG_H1 ,`CREG_Q ,`CREG_E2 }; 195: I = { `DOT ,`CREG_H2 ,`CREG_P ,`CREG_T }; 196: I = { `DOT ,`CREG_H3 ,`CREG_Q ,`CREG_RAY_DIRECTION }; 197: I = { `DOT ,`CREG_DELTA ,`CREG_P ,`CREG_E1 }; 198: I = { `DIV ,`CREG_t ,`CREG_H1 ,`CREG_DELTA }; 199: I = { `DIV ,`CREG_u ,`CREG_H2 ,`CREG_DELTA }; 200: I = { `DIV ,`CREG_v ,`CREG_H3 ,`CREG_DELTA }; 201: I = { `JGEX ,`LABEL_BIU1 ,`CREG_u ,`R1 }; 202: I = { `NOP ,`RT_FALSE }; 203: I = { `RET ,`R99 ,`FALSE }; //LABEL_BIU1: 204: I = { `JGEX ,`LABEL_BIU2 ,`CREG_v ,`R1 }; 205: I = { `NOP ,`RT_FALSE }; 206: I = { `RET ,`R99 ,`FALSE }; //LABEL_BIU2: 207: I = { `ADD ,`R2 ,`CREG_u ,`CREG_v }; 208: I = { `JLEX ,`LABEL_BIU3 ,`R2 ,`R3 }; 209: I = { `NOP ,`RT_FALSE }; 210: I = { `RET ,`R99 ,`FALSE }; //LABEL_BIU3: 211: I = { `JGEX ,`LABEL_BIU4 ,`CREG_t ,`CREG_LAST_t }; 212: I = { `COPY ,`CREG_LAST_t ,`CREG_t ,`VOID }; 213: I = { `COPY ,`CREG_LAST_u ,`CREG_u ,`VOID }; 214: I = { `COPY ,`CREG_LAST_v ,`CREG_v ,`VOID }; 215: I = { `COPY ,`CREG_E1_LAST ,`CREG_E1 ,`VOID }; 216: I = { `COPY ,`CREG_E2_LAST ,`CREG_E2 ,`VOID }; 217: I = { `COPY ,`CREG_UV0_LAST ,`CREG_UV0 ,`VOID }; 218: I = { `COPY ,`CREG_UV1_LAST ,`CREG_UV1 ,`VOID }; 219: I = { `COPY ,`CREG_UV2_LAST ,`CREG_UV2 ,`VOID }; 220: I = { `COPY ,`CREG_TRI_DIFFUSE_LAST ,`CREG_TRI_DIFFUSE ,`VOID }; 221: I = { `RET ,`R99 ,`TRUE }; //LABEL_BIU4: 222: I = { `RET ,`R99 ,`FALSE }; //------------------------------------------------------------------------- //Calculate the adress of the texure coordiantes. //TAG_TCC_UCODE_ADDRESS: //Do this calculation only if this triangle is the one closest to the camera 223: I = { `JGX ,`LABEL_TCC_EXIT ,`CREG_t ,`CREG_LAST_t }; //First get the UV coodrinates and store in R1 //R1x: u_coordinate = U0 + last_u * (U1 - U0) + last_v * (U2 - U0) //R1y: v_coordinate = V0 + last_u * (V1 - V0) + last_v * (V2 - V0) //R1z: 0 224: I = { `SUB ,`R1 ,`CREG_UV1_LAST ,`CREG_UV0_LAST }; 225: I = { `SUB ,`R2 ,`CREG_UV2_LAST ,`CREG_UV0_LAST }; 226: I = { `MUL ,`R1 ,`CREG_LAST_u ,`R1 }; 227: I = { `MUL ,`R2 ,`CREG_LAST_v ,`R2 }; 228: I = { `ADD ,`R1 ,`R1 ,`R2 }; 229: I = { `ADD ,`R1 ,`R1 ,`CREG_UV0_LAST }; //R7x : fu = (u_coordinate) * gTexture.mWidth //R7y : fv = (v_coordinate) * gTexture.mWidth //R7z : 0 230: I = { `MUL ,`R7 ,`R1 ,`CREG_TEXTURE_SIZE }; //R1x: u1 = ((int)fu) % gTexture.mWidth //R1y: v1 = ((int)fv) % gTexture.mHeight //R1z: 0 //R2x: u2 = (u1 + 1 ) % gTexture.mWidth //R2y: v2 = (v2 + 1 ) % gTexture.mHeight //R2z: 0 // Notice MOD2 only operates over // numbers that are power of 2 also notice that the // textures are assumed to be squares! //x % 2^n == x & (2^n - 1). 231: I = { `MOD ,`R1 ,`R7 ,`CREG_TEXTURE_SIZE }; 232: I = { `INC ,`R2 ,`R1 ,`VOID }; 233: I = { `MOD ,`R2 ,`R2 ,`CREG_TEXTURE_SIZE }; //Cool now we should store the values in the appropiate registers //OREG_TEX_COORD1.x = u1 + v1 * gTexture.mWidth //OREG_TEX_COORD1.y = u2 + v1 * gTexture.mWidth //OREG_TEX_COORD1.z = 0 //OREG_TEX_COORD2.x = u1 + v2 * gTexture.mWidth //OREG_TEX_COORD2.y = u2 + v2 * gTexture.mWidth //OREG_TEX_COORD1.z = 0 //R1= [u1 v1 0] //R2= [u2 v2 0] //R2 = [v2 u2 0] 234: I = { `SWIZZLE3D ,`R2 ,`SWIZZLE_YXZ }; //R3 = [v2 v1 0] 235: I = { `XCHANGEX ,`R3 ,`R1 ,`R2 }; //R4 = [u1 u2 0] 236: I = { `XCHANGEX ,`R4 ,`R2 ,`R1 }; //R2 = [v2*H v1*H 0] 237: I = { `UNSCALE ,`R9 ,`R3 ,`VOID }; 238: I = { `UNSCALE ,`R8 ,`CREG_TEXTURE_SIZE ,`VOID }; 239: I = { `IMUL ,`R2 ,`R9 ,`R8 }; //OREG_TEX_COORD1 = [u1 + v2*H u2 + v1*H 0] //R4 = FixedToIinteger(R4) 240: I = { `UNSCALE ,`R4 ,`R4 ,`VOID }; 241: I = { `ADD ,`R12 ,`R2 ,`R4 }; 242: I = { `SETX ,`R5 ,32'h3 }; 243: I = { `SETY ,`R5 ,32'h3 }; 244: I = { `SETZ ,`R5 ,32'h3 }; //Multiply by 3 (the pitch) //IMUL OREG_TEX_COORD1 R12 R5 245: I = { `IMUL ,`CREG_TEX_COORD1 ,`R12 ,`R5 }; //R4 = [u2 u1 0] 246: I = { `SWIZZLE3D ,`R4 ,`SWIZZLE_YXZ }; //OREG_TEX_COORD2 [u2 + v2*H u1 + v1*H 0] 247: I = { `ADD ,`R12 ,`R2 ,`R4 }; //Multiply by 3 (the pitch) //IMUL OREG_TEX_COORD2 R12 R5 248: I = { `IMUL ,`CREG_TEX_COORD2 ,`R12 ,`R5 }; //Cool now get the weights //w1 = (1 - fracu) * (1 - fracv) //w2 = fracu * (1 - fracv) //w3 = (1 - fracu) * fracv //w4 = fracu * fracv //R4x: fracu //R4y: fracv //R4z: 0 249: I = { `FRAC ,`R4 ,`R7 ,`VOID }; //R5x: fracv //R5y: fracu //R5z: 0 250: I = { `COPY ,`R5 ,`R4 ,`VOID }; 251: I = { `SWIZZLE3D ,`R5 ,`SWIZZLE_YXZ }; //R5x: 1 - fracv //R5y: 1 - fracu //R5y: 1 252: I = { `NEG ,`R5 ,`R5 ,`VOID }; 253: I = { `INC ,`R5 ,`R5 ,`VOID }; //R5x: 1 - fracv //R5y: 1 - fracu //R5y: (1 - fracv)(1 - fracu) 254: I = { `MULP ,`CREG_TEXWEIGHT1 ,`R5 ,`VOID }; //CREG_TEXWEIGHT1.x = (1 - fracv)(1 - fracu) //CREG_TEXWEIGHT1.y = (1 - fracv)(1 - fracu) //CREG_TEXWEIGHT1.z = (1 - fracv)(1 - fracu) 255: I = { `SWIZZLE3D ,`CREG_TEXWEIGHT1 ,`SWIZZLE_ZZZ }; //R6x: w2: fracu * (1 - fracv ) //R6y: w3: fracv * (1 - fracu ) //R6z: 0 256: I = { `MUL ,`R6 ,`R4 ,`R5 }; //CREG_TEXWEIGHT2.x = fracu * (1 - fracv ) //CREG_TEXWEIGHT2.y = fracu * (1 - fracv ) //CREG_TEXWEIGHT2.z = fracu * (1 - fracv ) 257: I = { `COPY ,`CREG_TEXWEIGHT2 ,`R6 ,`VOID }; 258: I = { `SWIZZLE3D ,`CREG_TEXWEIGHT2 ,`SWIZZLE_XXX }; //CREG_TEXWEIGHT3.x = fracv * (1 - fracu ) //CREG_TEXWEIGHT3.y = fracv * (1 - fracu ) //CREG_TEXWEIGHT3.z = fracv * (1 - fracu ) 259: I = { `COPY ,`CREG_TEXWEIGHT3 ,`R6 ,`VOID }; 260: I = { `SWIZZLE3D ,`CREG_TEXWEIGHT3 ,`SWIZZLE_YYY }; //R4x: fracu //R4y: fracv //R4z: fracu * fracv 261: I = { `MULP ,`R4 ,`R4 ,`VOID }; //CREG_TEXWEIGHT4.x = fracv * fracu //CREG_TEXWEIGHT4.y = fracv * fracu //CREG_TEXWEIGHT4.z = fracv * fracu 262: I = { `COPY ,`CREG_TEXWEIGHT4 ,`R4 ,`VOID }; 263: I = { `SWIZZLE3D ,`CREG_TEXWEIGHT4 ,`SWIZZLE_ZZZ }; //LABEL_TCC_EXIT: 264: I = { `RET ,`R99 ,32'h0 }; //------------------------------------------------------------------------- //TAG_PSU_UCODE_ADRESS: //Pixel Shader #1 //This pixel shader has diffuse light but no textures 265: I = { `CROSS ,`R1 ,`CREG_E1_LAST ,`CREG_E2_LAST }; 266: I = { `MAG ,`R2 ,`R1 ,`VOID }; 267: I = { `DIV ,`R1 ,`R1 ,`R2 }; 268: I = { `MUL ,`R2 ,`CREG_RAY_DIRECTION ,`CREG_LAST_t }; 269: I = { `ADD ,`R2 ,`R2 ,`CREG_CAMERA_POSITION }; 270: I = { `SUB ,`R2 ,`CURRENT_LIGHT_POS ,`R2 }; 271: I = { `MAG ,`R3 ,`R2 ,`VOID }; 272: I = { `DIV ,`R2 ,`R2 ,`R3 }; 273: I = { `DOT ,`R3 ,`R2 ,`R1 }; 274: I = { `MUL ,`CREG_COLOR_ACC ,`CREG_TRI_DIFFUSE_LAST ,`CURRENT_LIGHT_DIFFUSE }; 275: I = { `MUL ,`CREG_COLOR_ACC ,`CREG_COLOR_ACC ,`R3 }; 276: I = { `COPY ,`CREG_TEXTURE_COLOR ,`CREG_COLOR_ACC ,`VOID }; 277: I = { `NOP ,`RT_FALSE }; 278: I = { `NOP ,`RT_FALSE }; 279: I = { `NOP ,`RT_FALSE }; 280: I = { `RET ,`R99 ,`TRUE }; //------------------------------------------------------------------------- //Pixel Shader #2 //TAG_PSU_UCODE_ADRESS2: //This Pixel Shader has no light but it does texturinng //with bi-linear interpolation 281: I = { `COPY ,`R1 ,`CREG_TEX_COORD1 ,`VOID }; 282: I = { `COPY ,`R2 ,`CREG_TEX_COORD1 ,`VOID }; 283: I = { `COPY ,`R3 ,`CREG_TEX_COORD2 ,`VOID }; 284: I = { `COPY ,`R4 ,`CREG_TEX_COORD2 ,`VOID }; 285: I = { `SWIZZLE3D ,`R1 ,`SWIZZLE_XXX }; 286: I = { `SWIZZLE3D ,`R2 ,`SWIZZLE_YYY }; 287: I = { `SWIZZLE3D ,`R3 ,`SWIZZLE_XXX }; 288: I = { `SWIZZLE3D ,`R4 ,`SWIZZLE_YYY }; 289: I = { `ADD ,`R1 ,`R1 ,`CREG_012 }; 290: I = { `ADD ,`R2 ,`R2 ,`CREG_012 }; 291: I = { `ADD ,`R3 ,`R3 ,`CREG_012 }; 292: I = { `ADD ,`R4 ,`R4 ,`CREG_012 }; 293: I = { `TMREAD ,`CREG_TEX_COLOR1 ,`R1 ,`VOID }; 294: I = { `NOP ,`RT_FALSE }; 295: I = { `TMREAD ,`CREG_TEX_COLOR2 ,`R2 ,`VOID }; 296: I = { `NOP ,`RT_FALSE }; 297: I = { `TMREAD ,`CREG_TEX_COLOR3 ,`R3 ,`VOID }; 298: I = { `NOP ,`RT_FALSE }; 299: I = { `TMREAD ,`CREG_TEX_COLOR4 ,`R4 ,`VOID }; 300: I = { `NOP ,`RT_FALSE }; //TextureColor.R = c1.R * w1 + c2.R * w2 + c3.R * w3 + c4.R * w4 //TextureColor.G = c1.G * w1 + c2.G * w2 + c3.G * w3 + c4.G * w4 //TextureColor.B = c1.B * w1 + c2.B * w2 + c3.B * w3 + c4.B * w4 //MUL R1 CREG_TEX_COLOR4 CREG_TEXWEIGHT1 //MUL R2 CREG_TEX_COLOR2 CREG_TEXWEIGHT2 //MUL R3 CREG_TEX_COLOR1 CREG_TEXWEIGHT3 //MUL R4 CREG_TEX_COLOR3 CREG_TEXWEIGHT4 301: I = { `MUL ,`R1 ,`CREG_TEX_COLOR3 ,`CREG_TEXWEIGHT1 }; 302: I = { `MUL ,`R2 ,`CREG_TEX_COLOR2 ,`CREG_TEXWEIGHT2 }; 303: I = { `MUL ,`R3 ,`CREG_TEX_COLOR1 ,`CREG_TEXWEIGHT3 }; 304: I = { `MUL ,`R4 ,`CREG_TEX_COLOR4 ,`CREG_TEXWEIGHT4 }; 305: I = { `ADD ,`CREG_TEXTURE_COLOR ,`R1 ,`R2 }; 306: I = { `ADD ,`CREG_TEXTURE_COLOR ,`CREG_TEXTURE_COLOR ,`R3 }; 307: I = { `ADD ,`CREG_TEXTURE_COLOR ,`CREG_TEXTURE_COLOR ,`R4 }; 308: I = { `RET ,`R99 ,`TRUE }; //------------------------------------------------------------------------- //Default User constants //TAG_USERCONSTANTS: 309: I = { `NOP ,`RT_FALSE }; 310: I = { `RETURN ,`RT_FALSE }; //TAG_PIXELSHADER: //Default Pixel Shader (just outputs texture) 311: I = { `OMWRITE ,`OREG_PIXEL_COLOR ,`CREG_CURRENT_OUTPUT_PIXEL ,`CREG_TEXTURE_COLOR }; 312: I = { `NOP ,`RT_FALSE }; 313: I = { `RET ,`R99 ,`TRUE }; 314: I = { `NOP ,`RT_FALSE }; //------------------------------------------------------------------------- default: begin `ifdef DEBUG $display("%dns CORE %d Error: Reached undefined address in instruction Memory: %d!!!!",$time,iDebug_CoreID,Address); // $stop(); `endif I = {`INSTRUCTION_OP_LENGTH'hFF,16'hFFFF,32'hFFFFFFFF}; end endcase end endmodule //--------------------------------------------------------
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