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; @(#)smartmac.h 1.2 90/10/14 20:56:14, AMD ; start of smartmac.h file ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ; Copyright 1988, 1989, 1990 Advanced Micro Devices, Inc. ; ; This software is the property of Advanced Micro Devices, Inc (AMD) which ; specifically grants the user the right to modify, use and distribute this ; software provided this notice is not removed or altered. All other rights ; are reserved by AMD. ; ; AMD MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARD TO THIS ; SOFTWARE. IN NO EVENT SHALL AMD BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL ; DAMAGES IN CONNECTION WITH OR ARISING FROM THE FURNISHING, PERFORMANCE, OR ; USE OF THIS SOFTWARE. ; ; So that all may benefit from your experience, please report any problems ; or suggestions about this software to the 29K Technical Support Center at ; 800-29-29-AMD (800-292-9263) in the USA, or 0800-89-1131 in the UK, or ; 0031-11-1129 in Japan, toll free. The direct dial number is 512-462-4118. ; ; Advanced Micro Devices, Inc. ; 29K Support Products ; Mail Stop 573 ; 5900 E. Ben White Blvd. ; Austin, TX 78741 ; 800-292-9263 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ; ; .title "AM29000 Smart Macro Package" ; ; Floating point package for AMD 29000 family ; ; Copyright 1988 Advanced Micro Devices, Inc. ; ; All rights reserved ; ; Developed for AMD by Quantitative Technology Corporation ; 8700 SW Creekside Place Suite D ; Beaverton OR 97005 ; (503) 626-3081 ; ; Version information : ; ; Version 1.0 - 1 June 1988 - Larry Westerman (smart_macros.h) ; ; Revision 1.4 89/02/01 18:26:03 jimh ; Changed to relect the new symbols from Bob Perlman, and the new include file.s ; ; Revision 1.3 89/01/31 10:13:34 jimh ; Updated to use symbols from Bob Perlmans fpsymbol.h file. This is ; an extensive change. ; ; Revision 1.2 89/01/26 09:23:50 jimh ; This version checked in previous to substituting Bob Perlman's floating ; point symbols. ; ; Revision 1.1 89/01/24 13:23:29 jim ; Initial revision ; Replaces smart_macros.h ver 1.11. ; ; ; ; ; NOTES: ; ; This package makes the following assumptions about the use of these ; smart macros: ; ; 1. These macros will be after the entry code for a transcendental ; routine. This entry code will move the original function arguments ; (by value, if the target language is FORTRAN) into the global ; registers t0/t1 and t2/t3 (t0 and t2 for single precision ; routines). ; 2. The sources of all operands will be one register from the ; following list: ; t0 or t2 - the source is one of the original input operands ; rtn0 - the source is rtn0, which should be used as the ; source for all constant values to be sent to the ; AM29027 (when used) ; FP0 - FP7 - the source is one of the fp registers ; 3. The destination of all operations will be a register from the ; following list: ; rtn0 - the destination is the function return value ; FP0 - FP7 - the destination is one of the fp registers ; 4. The additional registers available for temporary use are ; t4, lrp, and slp. ; ; These register definitions are all taken from the file "proregs.a" ; which was supplied by AMD. NOTE that the FP0-FP7 registers, for the ; Am29000 version of the file, overlap with the rtn0-rtn15 registers, so ; that FP0 corresponds to rtn0/rtn1, FP1 to rtn2/rtn3, and so forth. ; .equ ERROR,0 .equ NO_ERROR,1 .equ DOUBLE_FUNCTION,0 .equ SINGLE_FUNCTION,1 .equ T_OPERATION,0 .equ Q_OPERATION,1 .equ R_SOURCE_29000,0 .equ R_SOURCE_29027,1 .equ S_SOURCE_29000,0 .equ S_SOURCE_29027,1 .equ DESTINATION_29000, 0 .equ DESTINATION_29027, 1 ; ; SMART MACRO : mfadd ; ; FUNCTION : single-precision floating point addition ; ; Required arguments : destination - one of possible destinations ; operand1 - one of possible sources ; operand2 - one of possible sources ; .macro mfadd,destination,operand1,operand2 .if $narg!=3 .err .print "mfadd: missing parameter(s)" .exitm .endif .ifdef _29027_MODE ; ; For 29027 mode, perform full suite of checking ; initialize_previous_instruction .set CURRENT_INSTRUCTION, CP_S_S | CP_P_PLUS_T .set OPERATION_TYPE, T_OPERATION perform_single_operation destination,operand1,operand2 read_single_result destination ; ; Save the instruction for the next macro invocation ; .set PREVIOUS_INSTRUCTION, CURRENT_INSTRUCTION .else ; ; For 29000 mode, simply produce equivalent trap-inducing instruction ; fadd destination,operand1,operand2 .endif .endm ; end of mfadd macro definition ; ; SMART MACRO : mfsub ; ; FUNCTION : single-precision floating point subtraction ; ; Required arguments : destination - one of possible destinations ; operand1 - one of possible sources ; operand2 - one of possible sources ; .macro mfsub,destination,operand1,operand2 .if $narg!=3 .err .print "mfsub: missing parameter(s)" .exitm .endif .ifdef _29027_MODE ; ; For 29027 mode, perform full suite of checking ; initialize_previous_instruction .set CURRENT_INSTRUCTION, CP_S_S | CP_P_MINUS_T .set OPERATION_TYPE, T_OPERATION perform_single_operation destination,operand1,operand2 read_single_result destination ; ; Save the instruction for the next macro invocation ; .set PREVIOUS_INSTRUCTION, CURRENT_INSTRUCTION .else ; ; For 29000 mode, simply produce equivalent trap-inducing instruction ; fsub destination,operand1,operand2 .endif .endm ; end of mfsub macro definition ; ; SMART MACRO : mfmul ; ; FUNCTION : single-precision floating point multiplication ; ; Required arguments : destination - one of possible destinations ; operand1 - one of possible sources ; operand2 - one of possible sources ; .macro mfmul,destination,operand1,operand2 .if $narg!=3 .err .print "mfmul: missing parameter(s)" .exitm .endif .ifdef _29027_MODE ; ; For 29027 mode, perform full suite of checking ; initialize_previous_instruction .set CURRENT_INSTRUCTION, CP_S_S | CP_P_TIMES_Q .set OPERATION_TYPE, Q_OPERATION perform_single_operation destination,operand1,operand2 read_single_result destination ; ; Save the instruction for the next macro invocation ; .set PREVIOUS_INSTRUCTION, CURRENT_INSTRUCTION .else ; ; For 29000 mode, simply produce equivalent trap-inducing instruction ; fmul destination,operand1,operand2 .endif .endm ; end of mfmul macro definition ; ; SMART MACRO : mfdiv ; ; FUNCTION : single-precision floating point divide ; ; Required arguments : destination - one of possible destinations ; operand1 - one of possible sources ; operand2 - one of possible sources ; .macro mfdiv,destination,operand1,operand2 .if $narg!=3 .err .print "mfdiv: missing parameter(s)" .exitm .endif ; ; Generate the trap instruction in all cases ; fdiv destination, operand1, operand2 .endm ; end of mfdiv macro definition ; ; SMART MACRO : mdadd ; ; FUNCTION : double-precision floating point addition ; ; Required arguments : destination - one of possible destinations ; operand1 - one of possible sources ; operand2 - one of possible sources ; .macro mdadd,destination,operand1,operand2 .if $narg!=3 .err .print "mdadd: missing parameter(s)" .exitm .endif .ifdef _29027_MODE ; ; For 29027 mode, perform full suite of checking ; initialize_previous_instruction .set CURRENT_INSTRUCTION, CP_D_D | CP_P_PLUS_T .set OPERATION_TYPE, T_OPERATION perform_double_operation destination,operand1,operand2 read_double_result destination ; ; Save the instruction for the next macro invocation ; .set PREVIOUS_INSTRUCTION, CURRENT_INSTRUCTION .else ; ; For 29000 mode, simply produce equivalent trap-inducing instruction ; dadd destination,operand1,operand2 .endif .endm ; end of mdadd macro definition ; ; SMART MACRO : mdsub ; ; FUNCTION : double-precision floating point subtraction ; ; Required arguments : destination - one of possible destinations ; operand1 - one of possible sources ; operand2 - one of possible sources ; .macro mdsub,destination,operand1,operand2 .if $narg!=3 .err .print "mdsub: missing parameter(s)" .exitm .endif .ifdef _29027_MODE ; ; For 29027 mode, perform full suite of checking ; initialize_previous_instruction .set CURRENT_INSTRUCTION, CP_D_D | CP_P_MINUS_T .set OPERATION_TYPE, T_OPERATION perform_double_operation destination,operand1,operand2 read_double_result destination ; ; Save the instruction for the next macro invocation ; .set PREVIOUS_INSTRUCTION, CURRENT_INSTRUCTION .else ; ; For 29000 mode, simply produce equivalent trap-inducing instruction ; dsub destination,operand1,operand2 .endif .endm ; end of mdsub macro definition ; ; SMART MACRO : mdmul ; ; FUNCTION : double-precision floating point multiplication ; ; Required arguments : destination - one of possible destinations ; operand1 - one of possible sources ; operand2 - one of possible sources ; .macro mdmul,destination,operand1,operand2 .if $narg!=3 .err .print "mdmul: missing parameter(s)" .exitm .endif .ifdef _29027_MODE ; ; For 29027 mode, perform full suite of checking ; initialize_previous_instruction .set CURRENT_INSTRUCTION, CP_D_D | CP_P_TIMES_Q .set OPERATION_TYPE, Q_OPERATION perform_double_operation destination,operand1,operand2 read_double_result destination ; ; Save the instruction for the next macro invocation ; .set PREVIOUS_INSTRUCTION, CURRENT_INSTRUCTION .else ; ; For 29000 mode, simply produce equivalent trap-inducing instruction ; dmul destination,operand1,operand2 .endif .endm ; end of mdmul macro definition ; ; SMART MACRO : mddiv ; ; FUNCTION : double-precision floating point divide ; ; Required arguments : destination - one of possible destinations ; operand1 - one of possible sources ; operand2 - one of possible sources ; .macro mddiv,destination,operand1,operand2 .if $narg!=3 .err .print "mddiv: missing parameter(s)" .exitm .endif ; ; Generate the trap instruction in all cases ; ddiv destination, operand1, operand2 .endm ; end of mfdiv macro definition ; ; SMART MACRO: mconvert ; ; FUNCTION: Floating point/integer conversion ; ; PARAMETERS: destination - one of the possible destinations ; source - one of the possible sources ; sign_flag - one of SIGNED or UNSIGNED ; rounding_mode - one of ROUND_TO_NEAREST, ROUND_TO_PLUS, ; ROUND_TO_MINUS, ROUND_TO_ZERO ; destination_precision - one of FORMAT_INTEGER, FORMAT_DOUBLE, ; or FORMAT_SINGLE ; source_precision - one of FORMAT_INTEGER, FORMAT_DOUBLE, ; or FORMAT_SINGLE ; .macro mconvert, destination, source, sign_flag, rounding_mode, destination_precision, source_precision .if $narg!=6 .err .print "mconvert: missing parameter(s)" .exitm .endif .ifdef _29027_MODE ; ; Generate in line 29027 code ; initialize_previous_instruction .if ( destination_precision == FORMAT_INTEGER ) .set CURRENT_INSTRUCTION, CP_CONVERT_T_TO_INT select_T_operand source .if ( source_precision == FORMAT_DOUBLE ) .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_S_D .else .if ( source_precision == FORMAT_SINGLE ) .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_S_S .else .err .print "mconvert: invalid source type" .exitm .endif .endif .else .if ( destination_precision == FORMAT_DOUBLE ) .if ( source_precision == FORMAT_SINGLE ) .set CURRENT_INSTRUCTION, CP_PASS_P | CP_P_EQ_R | CP_D_S select_P_operand source .else .if ( source_precision == FORMAT_INTEGER ) .set CURRENT_INSTRUCTION, CP_I_CONVERT_T_TO_FLOAT | CP_D_S select_T_operand source .else .err .print "mconvert: invalid source type" .exitm .endif .endif .else .if ( destination_precision == FORMAT_SINGLE ) .if ( source_precision == FORMAT_DOUBLE ) .set CURRENT_INSTRUCTION, CP_PASS_P | CP_P_EQ_R | CP_S_D select_P_operand source .else .if ( source_precision == FORMAT_INTEGER ) .set CURRENT_INSTRUCTION, CP_I_CONVERT_T_TO_FLOAT | CP_S_S select_T_operand source .else .err .print "mconvert: invalid source type" .exitm .endif .endif .else .err .print "mconvert: invalid destination type " .exitm .endif .endif .endif ; ; Perform the operation, using a 29027 dummy register as the second ; source operand, to avoid writing any data inappropriately to the ; 29027 ; select_destination destination .set S_SOURCE, S_SOURCE_29027 .if ( source_precision == FORMAT_DOUBLE ) write_and_execute_double_operation source, FP0 .else write_and_execute_single_operation source, FP0 .endif .if ( destination_precision == FORMAT_DOUBLE ) read_double_result destination .else .if ( destination_precision == FORMAT_SINGLE ) read_single_result destination .else read_integer_result destination .endif .endif .else ; ; For 29000 mode (the default) just invoke the trap-inducing instruction ; convert destination,source,sign_flag,rounding_mode,destination_precision,source_precision .endif .endm ; end of mfeq macro definition ; ; SMART MACRO: mfeq ; ; FUNCTION: Single precision, floating point compare ; ; PARAMETERS: destination - one of the possible destinations ; operand1 - one of the possible sources ; operand2 - one of the possible sources ; .macro mfeq, destination, operand1, operand2 .if $narg!=3 .err .print "mfeq: missing parameter(s)" .exitm .endif .ifdef _29027_MODE ; ; Generate in line 29027 code ; initialize_previous_instruction .set CURRENT_INSTRUCTION, CP_S_S | CP_COMPARE_P_AND_T .set OPERATION_TYPE, T_OPERATION select_destination destination ; ; 29027 registers are not valid destinations for compare operations ; If the destination is a 29000 register, write the appropriate ; Boolean value to that register. ; .if ( DESTINATION == DESTINATION_29027 ) .err .print "29027 destinations invalid for compares - @destination@" .exitm .else perform_single_operation destination, operand1, operand2 cp_read_flags destination srl destination, destination, CP_EQUAL_FLAG_POSITION sll destination, destination, 31 .endif .else ; ; For 29000 mode (the default) just invoke the trap-inducing instruction ; feq destination,operand1,operand2 .endif .endm ; end of mfeq macro definition ; ; SMART MACRO: mfge ; ; FUNCTION: Single precision, floating point compare ; ; PARAMETERS: destination - one of the possible destinations ; operand1 - one of the possible sources ; operand2 - one of the possible sources ; .macro mfge, destination, operand1, operand2 .if $narg!=3 .err .print "mfge: missing parameter(s)" .exitm .endif .ifdef _29027_MODE ; ; Generate in line 29027 code ; initialize_previous_instruction .set CURRENT_INSTRUCTION, CP_S_S | CP_COMPARE_P_AND_T .set OPERATION_TYPE, T_OPERATION select_destination destination ; ; 29027 registers are not valid destinations for compare operations ; If the destination is a 29000 register, write the appropriate ; Boolean value to that register. ; .if ( DESTINATION == DESTINATION_29027 ) .err .print "29027 destinations invalid for compares - @destination@" .exitm .else perform_single_operation destination, operand1, operand2 cp_read_flags destination and destination, destination, CP_EQUAL_FLAG | CP_GREATER_THAN_FLAG cpneq destination, destination, 0x0 .endif .else ; ; For 29000 mode (the default) just invoke the trap-inducing instruction ; fge destination,operand1,operand2 .endif .endm ; end of mfge macro definition ; ; SMART MACRO: mfgt ; ; FUNCTION: Single precision, floating point compare ; ; PARAMETERS: destination - one of the possible destinations ; operand1 - one of the possible sources ; operand2 - one of the possible sources ; .macro mfgt, destination, operand1, operand2 .if $narg!=3 .err .print "mfgt: missing parameter(s)" .exitm .endif .ifdef _29027_MODE ; ; Generate in line 29027 code ; initialize_previous_instruction .set CURRENT_INSTRUCTION, CP_S_S | CP_COMPARE_P_AND_T .set OPERATION_TYPE, T_OPERATION select_destination destination ; ; 29027 registers are not valid destinations for compare operations ; If the destination is a 29000 register, write the appropriate ; Boolean value to that register. ; .if ( DESTINATION == DESTINATION_29027 ) .err .print "29027 destinations invalid for compares - @destination@" .exitm .else perform_single_operation destination, operand1, operand2 cp_read_flags destination srl destination, destination, CP_GREATER_THAN_FLAG_POSITION sll destination, destination, 31 .endif .else ; ; For 29000 mode (the default) just invoke the trap-inducing instruction ; fgt destination,operand1,operand2 .endif .endm ; end of mfgt macro definition ; ; SMART MACRO: mdeq ; ; FUNCTION: Double precision, floating point compare ; ; PARAMETERS: destination - one of the possible destinations ; operand1 - one of the possible sources ; operand2 - one of the possible sources ; .macro mdeq, destination, operand1, operand2 .if $narg!=3 .err .print "mdeq: missing parameter(s)" .exitm .endif .ifdef _29027_MODE ; ; Generate in line 29027 code ; initialize_previous_instruction .set CURRENT_INSTRUCTION, CP_D_D | CP_COMPARE_P_AND_T .set OPERATION_TYPE, T_OPERATION select_destination destination ; ; 29027 registers are not valid destinations for compare operations ; If the destination is a 29000 register, write the appropriate ; Boolean value to that register. ; .if ( DESTINATION == DESTINATION_29027 ) .err .print "29027 destinations invalid for compare - @destination@" .exitm .else perform_double_operation destination, operand1, operand2 cp_read_flags destination srl destination, destination, CP_EQUAL_FLAG_POSITION sll destination, destination, 31 .endif .else ; ; For 29000 mode (the default) just invoke the trap-inducing instruction ; deq destination,operand1,operand2 .endif .endm ; end of mdeq macro definition ; ; SMART MACRO: mdge ; ; FUNCTION: Double precision, floating point compare ; ; PARAMETERS: destination - one of the possible destinations ; operand1 - one of the possible sources ; operand2 - one of the possible sources ; .macro mdge, destination, operand1, operand2 .if $narg!=3 .err .print "mdge: missing parameter(s)" .exitm .endif .ifdef _29027_MODE ; ; Generate in line 29027 code ; initialize_previous_instruction .set CURRENT_INSTRUCTION, CP_D_D | CP_COMPARE_P_AND_T .set OPERATION_TYPE, T_OPERATION select_destination destination ; ; 29027 registers are not valid destinations for compare operations ; If the destination is a 29000 register, write the appropriate ; Boolean value to that register. ; .if ( DESTINATION == DESTINATION_29027 ) .err .print "29027 destinations invalid for compare - @destination@" .exitm .else perform_double_operation destination, operand1, operand2 cp_read_flags destination and destination, destination, CP_EQUAL_FLAG | CP_GREATER_THAN_FLAG cpneq destination, destination, 0x0 .endif .else ; ; For 29000 mode (the default) just invoke the trap-inducing instruction ; dge destination,operand1,operand2 .endif .endm ; end of mdge macro definition ; ; SMART MACRO: mdgt ; ; FUNCTION: Double precision, floating point compare ; ; PARAMETERS: destination - one of the possible destinations ; operand1 - one of the possible sources ; operand2 - one of the possible sources ; .macro mdgt, destination, operand1, operand2 .if $narg!=3 .err .print "mdgt: missing parameter(s)" .exitm .endif .ifdef _29027_MODE ; ; Generate in line 29027 code ; initialize_previous_instruction .set CURRENT_INSTRUCTION, CP_D_D | CP_COMPARE_P_AND_T .set OPERATION_TYPE, T_OPERATION select_destination destination ; ; 29027 registers are not valid destinations for compare operations ; If the destination is a 29000 register, write the appropriate ; Boolean value to that register. ; .if ( DESTINATION == DESTINATION_29027 ) .err .print "29027 destinations invalid for compare - @destination@" .exitm .else perform_double_operation destination, operand1, operand2 cp_read_flags destination srl destination, destination, CP_GREATER_THAN_FLAG_POSITION sll destination, destination, 31 .endif .else ; ; For 29000 mode (the default) just invoke the trap-inducing instruction ; dgt destination,operand1,operand2 .endif .endm ; end of mdgt macro definition ; ; MACRO NAME : perform_double_operation ; ; FUNCTION : After the instruction base is set up, do the appropriate checking ; to send the instruction if necessary, send the double-precision ; operands if necessary, and start the operation ; ; PARAMETERS : destination - one of possible destination operands ; operand1 - one of possible source operands ; operand2 - one of possible source operands ; .macro perform_double_operation,destination,operand1,operand2 .if $narg!=3 .err .print "perform_double_operation: missing parameter(s)" .exitm .endif ; ; Start defining the instruction ; select_destination destination select_P_operand operand1 select_S_operand operand2 write_and_execute_double_operation operand1, operand2 .endm ; End of perform_double_operation macro definition ; ; MACRO NAME : perform_single_operation ; ; FUNCTION : After the instruction base is set up, do the appropriate checking ; to send the instruction if necessary, send the single-precision ; operands if necessary and start the operation ; ; PARAMETERS : destination - one of possible destination operands ; operand1 - one of possible source operands ; operand2 - one of possible source operands ; .macro perform_single_operation,destination,operand1,operand2 ; ; Start defining the instruction ; select_destination destination select_P_operand operand1 select_S_operand operand2 write_and_execute_single_operation operand1,operand2 .endm ; End of perform_single_operation macro definition ; ; MACRO NAME : write_and_execute_double_operation ; ; FUNCTION : Write the instruction and operands for a double-precision ; operation, and start the operation ; ; PARAMETER : operand1 - first operand of double-precision operation ; operand2 - second operand of operation ; .macro write_and_execute_double_operation,operand1,operand2 .if ( ( R_SOURCE == R_SOURCE_29027 ) && ( S_SOURCE == S_SOURCE_29027 ) ) ; ; If both sources are within the 29027, write the instruction ; and start the operation ; const t4, CURRENT_INSTRUCTION consth t4, CURRENT_INSTRUCTION cp_write_inst t4, START .else ; ; One or both of the sources must be written first, so check the ; previous instruction ; const t4, CURRENT_INSTRUCTION consth t4, CURRENT_INSTRUCTION cp_write_inst t4 .if ( R_SOURCE == R_SOURCE_29000 ) && ( S_SOURCE == S_SOURCE_29027 ) .ifeqs "@operand1@","t0" cp_write_r t0, t1, START .else .ifeqs "@operand1@","t2" cp_write_r t2, t3, START .else .ifeqs "@operand1@","rtn0" cp_write_r rtn0, rtn1, START .else .err .print "Invalid source for double operation - @operand1@" .exitm .endif .endif .endif .endif .if ( R_SOURCE == R_SOURCE_29027 ) && ( S_SOURCE == S_SOURCE_29000 ) .ifeqs "@operand2@","t0" cp_write_s t0, t1, START .else .ifeqs "@operand2@","t2" cp_write_s t2, t3, START .else .ifeqs "@operand2@","rtn0" cp_write_s rtn0, rtn1, START .else .err .print "Invalid source for double operation - @operand1@" .exitm .endif .endif .endif .endif .if ( R_SOURCE == R_SOURCE_29000 ) && ( S_SOURCE == S_SOURCE_29000 ) .ifeqs "@operand1@","t0" cp_write_r t0, t1 .else .ifeqs "@operand1@","t2" cp_write_r t2, t3 .else .ifeqs "@operand1@","rtn0" cp_write_r rtn0, rtn1 .else .err .print "Invalid source for double operation - @operand1@" .exitm .endif .endif .endif .ifeqs "@operand2@","t0" cp_write_s t0, t1, START .else .ifeqs "@operand2@","t2" cp_write_s t2, t3, START .else .ifeqs "@operand2@","rtn0" cp_write_s rtn0, rtn1, START .else .err .print "Invalid source for double operation - @operand1@" .exitm .endif .endif .endif .endif .endif .endm ; end of write_and_execute_double_operation macro definition ; ; MACRO NAME : write_and_execute_single_operation ; ; FUNCTION : If necessary, read the result from the 29027 into a ; register on the 29000 ; ; PARAMETER : operand1 - first source for single-precision operation ; operand2 - second source for operation ; .macro write_and_execute_single_operation,operand1,operand2 .if ( ( R_SOURCE == R_SOURCE_29027 ) && ( S_SOURCE == S_SOURCE_29027 ) ) ; ; If both sources are within the 29027, write the instruction ; and start the operation ; const t4, CURRENT_INSTRUCTION consth t4, CURRENT_INSTRUCTION cp_write_inst t4, START .else ; ; One or both of the sources must be written first, so check the ; previous instruction ; const t4,CURRENT_INSTRUCTION consth t4,CURRENT_INSTRUCTION cp_write_inst t4, START .if ( R_SOURCE == R_SOURCE_29000 ) && ( S_SOURCE == S_SOURCE_29027 ) cp_write_r operand1, operand1, START .endif .if ( R_SOURCE == R_SOURCE_29027 ) && ( S_SOURCE == S_SOURCE_29000 ) cp_write_s operand2, operand2, START .endif .if ( R_SOURCE == R_SOURCE_29000 ) && ( S_SOURCE == S_SOURCE_29000 ) cp_write_rs operand1, operand2, START .endif .endif .endm ; End of write_and_execute_single_operation macro definition ; ; MACRO NAME : read_double_result ; ; FUNCTION : If necessary, read the result from the 29027 into a ; register on the 29000 ; ; PARAMETER : destination - one of the possible destination registers ; .macro read_double_result,destination .if ( DESTINATION == DESTINATION_29000 ) ; ; If the destination is not within the 29027 register file, read ; the result and store it into the correct register in the 29000 ; .ifeqs "@destination@","rtn0" cp_read_dp rtn0, rtn1 .else .err .print "Invalid destination for double result - @destination@" .exitm .endif .endif .endm ; End of read_double_result macro definition ; ; MACRO NAME : read_single_result ; ; FUNCTION : If necessary, read the result from the 29027 into a ; register on the 29000 ; ; PARAMETER : destination ; .macro read_single_result,destination .if ( DESTINATION == DESTINATION_29000 ) ; ; If the destination is not within the 29027 register file, read ; the result and store it into the correct register in the 29000 ; .ifeqs "@destination@","rtn0" cp_read_sp rtn0 .else .err .print "Invalid destination for single result - @destination@" .exitm .endif .endif .endm ; End of read_single_result macro definition ; ; MACRO NAME : read_integer_result ; ; FUNCTION : If necessary, read the result from the 29027 into a ; register on the 29000 ; ; PARAMETER : destination ; .macro read_integer_result,destination .if ( DESTINATION == DESTINATION_29000 ) ; ; If the destination is not within the 29027 register file, read ; the result and store it into the correct register in the 29000 ; .ifeqs "@destination@","rtn0" cp_read_int rtn0 .else .err .print "Invalid destination for single result - @destination@" .exitm .endif .endif .endm ; End of read_integer_result macro definition ; ; MACRO NAME : select_P_operand ; ; FUNCTION : Given an operand, determine if the operand is from the ; register file, and if so, set the appropriate bits in ; the current instruction word. In addition, set the ; variable R_SOURCE to 0 for local register file, or 1 for ; floating-point register file. ; ; PARAMETER : operand1 - one of the possible source operands ; .macro select_P_operand,operand1 .ifeqs "@operand1@","t0" .set R_SOURCE,R_SOURCE_29000 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_P_EQ_R .exitm .endif .ifeqs "@operand1@","t2" .set R_SOURCE,R_SOURCE_29000 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_P_EQ_R .exitm .endif .ifeqs "@operand1@","rtn0" .set R_SOURCE,R_SOURCE_29000 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_P_EQ_R .exitm .endif .ifeqs "@operand1@","FP0" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_P_EQ_RF0 .exitm .endif .ifeqs "@operand1@","FP1" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_P_EQ_RF1 .exitm .endif .ifeqs "@operand1@","FP2" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_P_EQ_RF2 .exitm .endif .ifeqs "@operand1@","FP3" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_P_EQ_RF3 .exitm .endif .ifeqs "@operand1@","FP4" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_P_EQ_RF4 .exitm .endif .ifeqs "@operand1@","FP5" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_P_EQ_RF5 .exitm .endif .ifeqs "@operand1@","FP6" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_P_EQ_RF6 .exitm .endif .ifeqs "@operand1@","FP7" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_P_EQ_RF7 .exitm .endif .err .print "@operand1@ - Invalid operand" .endm ; end of select_P_operand macro definition ; ; MACRO NAME : select_S_operand ; ; FUNCTION : Given an operand, determine if the operand is from the ; register file, and if so, set the appropriate bits in ; the current instruction word. In addition, set the ; variable S_SOURCE to S_SOURCE_29000 or S_SOURCE_29027 ; as appropriate ; ; PARAMETER : operand2 - one of the possible source operands ; .macro select_S_operand,operand2 .ifeqs "@operand2@","t0" .set S_SOURCE,S_SOURCE_29000 .if ( OPERATION_TYPE == T_OPERATION ) .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_S .else .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_Q_EQ_S .endif .exitm .endif .ifeqs "@operand2@","t2" .set S_SOURCE,S_SOURCE_29000 .if ( OPERATION_TYPE == T_OPERATION ) .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_S .else .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_Q_EQ_S .endif .exitm .endif .ifeqs "@operand2@","rtn0" .set S_SOURCE,S_SOURCE_29000 .if ( OPERATION_TYPE == T_OPERATION ) .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_S .else .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_Q_EQ_S .endif .exitm .endif .ifeqs "@operand2@","FP0" .set S_SOURCE,S_SOURCE_29027 .if ( OPERATION_TYPE == T_OPERATION ) .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF0 .else .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_Q_EQ_RF0 .endif .exitm .endif .ifeqs "@operand2@","FP1" .set S_SOURCE,S_SOURCE_29027 .if ( OPERATION_TYPE == T_OPERATION ) .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF1 .else .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_Q_EQ_RF1 .endif .exitm .endif .ifeqs "@operand2@","FP2" .set S_SOURCE,S_SOURCE_29027 .if ( OPERATION_TYPE == T_OPERATION ) .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF2 .else .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_Q_EQ_RF2 .endif .exitm .endif .ifeqs "@operand2@","FP3" .set S_SOURCE,S_SOURCE_29027 .if ( OPERATION_TYPE == T_OPERATION ) .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF3 .else .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_Q_EQ_RF3 .endif .exitm .endif .ifeqs "@operand2@","FP4" .set S_SOURCE,S_SOURCE_29027 .if ( OPERATION_TYPE == T_OPERATION ) .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF4 .else .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_Q_EQ_RF4 .endif .exitm .endif .ifeqs "@operand2@","FP5" .set S_SOURCE,S_SOURCE_29027 .if ( OPERATION_TYPE == T_OPERATION ) .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF5 .else .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_Q_EQ_RF5 .endif .exitm .endif .ifeqs "@operand2@","FP6" .set S_SOURCE,S_SOURCE_29027 .if ( OPERATION_TYPE == T_OPERATION ) .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF6 .else .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_Q_EQ_RF6 .endif .exitm .endif .ifeqs "@operand2@","FP7" .set S_SOURCE,S_SOURCE_29027 .if ( OPERATION_TYPE == T_OPERATION ) .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF7 .else .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_Q_EQ_RF7 .endif .exitm .endif .err .print "@operand2@ - Invalid operand" .endm ; end of select_S_operand macro definition ; ; MACRO NAME : select_T_operand ; ; FUNCTION : Given an operand, determine if the operand is from the ; register file, and if so, set the appropriate bits in ; the current instruction word, to read the corresponding ; source into the T operand. In addition, set the ; variable R_SOURCE to 0 for local register file, or 1 for ; floating-point register file. ; ; PARAMETER : operand1 - one of the possible source operands ; .macro select_T_operand,operand1 .ifeqs "@operand1@","t0" .set R_SOURCE,R_SOURCE_29000 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_R .exitm .endif .ifeqs "@operand1@","t2" .set R_SOURCE,R_SOURCE_29000 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_R .exitm .endif .ifeqs "@operand1@","rtn0" .set R_SOURCE,R_SOURCE_29000 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_R .exitm .endif .ifeqs "@operand1@","FP0" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF0 .exitm .endif .ifeqs "@operand1@","FP1" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF1 .exitm .endif .ifeqs "@operand1@","FP2" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF2 .exitm .endif .ifeqs "@operand1@","FP3" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF3 .exitm .endif .ifeqs "@operand1@","FP4" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF4 .exitm .endif .ifeqs "@operand1@","FP5" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF5 .exitm .endif .ifeqs "@operand1@","FP6" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF6 .exitm .endif .ifeqs "@operand1@","FP7" .set R_SOURCE,R_SOURCE_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_T_EQ_RF7 .exitm .endif .err .print "@operand1@ - Invalid operand" .endm ; end of select_T_operand macro definition ; ; MACRO NAME : select_destination ; ; FUNCTION : Given a destination, determine if the operand is from the ; register file, and if so, set the appropriate bits in ; the current instruction word. In addition, set the ; variable DESTINATION to DESTINATION_29000 or ; DESTINATION_29027 as appropriate ; ; PARAMETER : destination - one of the possible destination operands ; .macro select_destination,destination .ifeqs "@destination@","rtn0" .set DESTINATION,DESTINATION_29000 .exitm .endif .ifeqs "@destination@","FP0" .set DESTINATION,DESTINATION_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_DEST_EQ_RF0 .exitm .endif .ifeqs "@destination@","FP1" .set DESTINATION,DESTINATION_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_DEST_EQ_RF1 .exitm .endif .ifeqs "@destination@","FP2" .set DESTINATION,DESTINATION_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_DEST_EQ_RF2 .exitm .endif .ifeqs "@destination@","FP3" .set DESTINATION,DESTINATION_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_DEST_EQ_RF3 .exitm .endif .ifeqs "@destination@","FP4" .set DESTINATION,DESTINATION_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_DEST_EQ_RF4 .exitm .endif .ifeqs "@destination@","FP5" .set DESTINATION,DESTINATION_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_DEST_EQ_RF5 .exitm .endif .ifeqs "@destination@","FP6" .set DESTINATION,DESTINATION_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_DEST_EQ_RF6 .exitm .endif .ifeqs "@destination@","FP7" .set DESTINATION,DESTINATION_29027 .set CURRENT_INSTRUCTION, CURRENT_INSTRUCTION | CP_DEST_EQ_RF7 .exitm .endif .err .print "@destination@ - Invalid operand" .endm ; end of select_destination macro definition ; MACRO NAME : initialize_previous_instruction ; ; FUNCTION : Make sure the previous instruction is defined and set to zero ; .macro initialize_previous_instruction .ifndef PREVIOUS_INSTRUCTION ; ; Make sure that the previous instruction variable is initialized ; .set PREVIOUS_INSTRUCTION,0 .endif .endm ; end of initialize_previous_instruction macro definition ; MACRO NAME : prepare_function_parameters ; ; FUNCTION : To place the input parameters into the correct position for ; use by the function body. When the target language is ; FORTRAN, the values of the input arguments are read from the ; supplied addresses and moved to the t0-t3 temporary area. ; When the target language is C or Pascal, the values of the ; input arguments are simply moved to the t0-t3 temporary area. ; .macro prepare_function_parameters,arg1,arg2 .if $narg==0 .err .print "Missing function argument(s)" .exitm .endif .if $narg>2 .err .print "Too many function arguments .exitm .endif .if $narg>=1 .if $isreg(@arg1) .ifdef FORTRAN load 0,0,t0,arg1 .if ( FUNCTION_TYPE == DOUBLE_FUNCTION ) add t1,arg1,4 load 0,0,t1,t1 .endif .else add t0,arg1,0 .if ( FUNCTION_TYPE == DOUBLE_FUNCTION ) add t1,%%(&arg1+1),0 .endif .endif .else .err .print "Function argument not register - @arg1@" .endif .endif .if $narg==2 .if $isreg (@arg2) .ifdef FORTRAN load 0,0,t2,arg2 .if ( FUNCTION_TYPE == DOUBLE_FUNCTION ) add t3,arg2,4 load 0,0,t3,t3 .endif .else add t2,arg2,0 .if ( FUNCTION_TYPE == DOUBLE_FUNCTION ) add t3,%%(&arg2+1),0 .endif .endif .else .err .print "Function argument not register - @arg2@" .endif .endif .endm ; end of prepare_function_parameters macro definition ; end of smartmac.h file
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