testwave.ant
来自「xilinx xc9572 cpld 实现的伺服电机控制器」· ANT 代码 · 共 587 行 · 第 1/2 页
ANT
587 行
END;
PROCEDURE ANNOTATE_M2SG(
TX_TIME : INTEGER
) IS
VARIABLE TX_STR : String(1 to 4096);
VARIABLE TX_LOC : LINE;
BEGIN
STD.TEXTIO.write(TX_LOC,string'("Annotate["));
STD.TEXTIO.write(TX_LOC, TX_TIME);
STD.TEXTIO.write(TX_LOC,string'(",M2SG,"));
IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, M2SG);
STD.TEXTIO.write(TX_LOC, string'("]"));
TX_STR(TX_LOC.all'range) := TX_LOC.all;
STD.TEXTIO.writeline(results, TX_LOC);
STD.TEXTIO.Deallocate(TX_LOC);
END;
PROCEDURE ANNOTATE_PC1ON(
TX_TIME : INTEGER
) IS
VARIABLE TX_STR : String(1 to 4096);
VARIABLE TX_LOC : LINE;
BEGIN
STD.TEXTIO.write(TX_LOC,string'("Annotate["));
STD.TEXTIO.write(TX_LOC, TX_TIME);
STD.TEXTIO.write(TX_LOC,string'(",PC1ON,"));
IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, PC1ON);
STD.TEXTIO.write(TX_LOC, string'("]"));
TX_STR(TX_LOC.all'range) := TX_LOC.all;
STD.TEXTIO.writeline(results, TX_LOC);
STD.TEXTIO.Deallocate(TX_LOC);
END;
PROCEDURE ANNOTATE_PC2ON(
TX_TIME : INTEGER
) IS
VARIABLE TX_STR : String(1 to 4096);
VARIABLE TX_LOC : LINE;
BEGIN
STD.TEXTIO.write(TX_LOC,string'("Annotate["));
STD.TEXTIO.write(TX_LOC, TX_TIME);
STD.TEXTIO.write(TX_LOC,string'(",PC2ON,"));
IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, PC2ON);
STD.TEXTIO.write(TX_LOC, string'("]"));
TX_STR(TX_LOC.all'range) := TX_LOC.all;
STD.TEXTIO.writeline(results, TX_LOC);
STD.TEXTIO.Deallocate(TX_LOC);
END;
PROCEDURE ANNOTATE_REL0(
TX_TIME : INTEGER
) IS
VARIABLE TX_STR : String(1 to 4096);
VARIABLE TX_LOC : LINE;
BEGIN
STD.TEXTIO.write(TX_LOC,string'("Annotate["));
STD.TEXTIO.write(TX_LOC, TX_TIME);
STD.TEXTIO.write(TX_LOC,string'(",REL0,"));
IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, REL0);
STD.TEXTIO.write(TX_LOC, string'("]"));
TX_STR(TX_LOC.all'range) := TX_LOC.all;
STD.TEXTIO.writeline(results, TX_LOC);
STD.TEXTIO.Deallocate(TX_LOC);
END;
PROCEDURE ANNOTATE_SEN0(
TX_TIME : INTEGER
) IS
VARIABLE TX_STR : String(1 to 4096);
VARIABLE TX_LOC : LINE;
BEGIN
STD.TEXTIO.write(TX_LOC,string'("Annotate["));
STD.TEXTIO.write(TX_LOC, TX_TIME);
STD.TEXTIO.write(TX_LOC,string'(",SEN0,"));
IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, SEN0);
STD.TEXTIO.write(TX_LOC, string'("]"));
TX_STR(TX_LOC.all'range) := TX_LOC.all;
STD.TEXTIO.writeline(results, TX_LOC);
STD.TEXTIO.Deallocate(TX_LOC);
END;
PROCEDURE ANNOTATE_SEN1(
TX_TIME : INTEGER
) IS
VARIABLE TX_STR : String(1 to 4096);
VARIABLE TX_LOC : LINE;
BEGIN
STD.TEXTIO.write(TX_LOC,string'("Annotate["));
STD.TEXTIO.write(TX_LOC, TX_TIME);
STD.TEXTIO.write(TX_LOC,string'(",SEN1,"));
IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, SEN1);
STD.TEXTIO.write(TX_LOC, string'("]"));
TX_STR(TX_LOC.all'range) := TX_LOC.all;
STD.TEXTIO.writeline(results, TX_LOC);
STD.TEXTIO.Deallocate(TX_LOC);
END;
PROCEDURE ANNOTATE_SEN2(
TX_TIME : INTEGER
) IS
VARIABLE TX_STR : String(1 to 4096);
VARIABLE TX_LOC : LINE;
BEGIN
STD.TEXTIO.write(TX_LOC,string'("Annotate["));
STD.TEXTIO.write(TX_LOC, TX_TIME);
STD.TEXTIO.write(TX_LOC,string'(",SEN2,"));
IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, SEN2);
STD.TEXTIO.write(TX_LOC, string'("]"));
TX_STR(TX_LOC.all'range) := TX_LOC.all;
STD.TEXTIO.writeline(results, TX_LOC);
STD.TEXTIO.Deallocate(TX_LOC);
END;
PROCEDURE ANNOTATE_SPDA1(
TX_TIME : INTEGER
) IS
VARIABLE TX_STR : String(1 to 4096);
VARIABLE TX_LOC : LINE;
BEGIN
STD.TEXTIO.write(TX_LOC,string'("Annotate["));
STD.TEXTIO.write(TX_LOC, TX_TIME);
STD.TEXTIO.write(TX_LOC,string'(",SPDA1,"));
IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, SPDA1);
STD.TEXTIO.write(TX_LOC, string'("]"));
TX_STR(TX_LOC.all'range) := TX_LOC.all;
STD.TEXTIO.writeline(results, TX_LOC);
STD.TEXTIO.Deallocate(TX_LOC);
END;
PROCEDURE ANNOTATE_SPDB1(
TX_TIME : INTEGER
) IS
VARIABLE TX_STR : String(1 to 4096);
VARIABLE TX_LOC : LINE;
BEGIN
STD.TEXTIO.write(TX_LOC,string'("Annotate["));
STD.TEXTIO.write(TX_LOC, TX_TIME);
STD.TEXTIO.write(TX_LOC,string'(",SPDB1,"));
IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, SPDB1);
STD.TEXTIO.write(TX_LOC, string'("]"));
TX_STR(TX_LOC.all'range) := TX_LOC.all;
STD.TEXTIO.writeline(results, TX_LOC);
STD.TEXTIO.Deallocate(TX_LOC);
END;
PROCEDURE ANNOTATE_SPDB2(
TX_TIME : INTEGER
) IS
VARIABLE TX_STR : String(1 to 4096);
VARIABLE TX_LOC : LINE;
BEGIN
STD.TEXTIO.write(TX_LOC,string'("Annotate["));
STD.TEXTIO.write(TX_LOC, TX_TIME);
STD.TEXTIO.write(TX_LOC,string'(",SPDB2,"));
IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, SPDB2);
STD.TEXTIO.write(TX_LOC, string'("]"));
TX_STR(TX_LOC.all'range) := TX_LOC.all;
STD.TEXTIO.writeline(results, TX_LOC);
STD.TEXTIO.Deallocate(TX_LOC);
END;
PROCEDURE ANNOTATE_SPD2A(
TX_TIME : INTEGER
) IS
VARIABLE TX_STR : String(1 to 4096);
VARIABLE TX_LOC : LINE;
BEGIN
STD.TEXTIO.write(TX_LOC,string'("Annotate["));
STD.TEXTIO.write(TX_LOC, TX_TIME);
STD.TEXTIO.write(TX_LOC,string'(",SPD2A,"));
IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, SPD2A);
STD.TEXTIO.write(TX_LOC, string'("]"));
TX_STR(TX_LOC.all'range) := TX_LOC.all;
STD.TEXTIO.writeline(results, TX_LOC);
STD.TEXTIO.Deallocate(TX_LOC);
END;
PROCEDURE ANNOTATE_UART0(
TX_TIME : INTEGER
) IS
VARIABLE TX_STR : String(1 to 4096);
VARIABLE TX_LOC : LINE;
BEGIN
STD.TEXTIO.write(TX_LOC,string'("Annotate["));
STD.TEXTIO.write(TX_LOC, TX_TIME);
STD.TEXTIO.write(TX_LOC,string'(",UART0,"));
IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, UART0);
STD.TEXTIO.write(TX_LOC, string'("]"));
TX_STR(TX_LOC.all'range) := TX_LOC.all;
STD.TEXTIO.writeline(results, TX_LOC);
STD.TEXTIO.Deallocate(TX_LOC);
END;
PROCEDURE ANNOTATE_D(
TX_TIME : INTEGER
) IS
VARIABLE TX_STR : String(1 to 4096);
VARIABLE TX_LOC : LINE;
BEGIN
STD.TEXTIO.write(TX_LOC,string'("Annotate["));
STD.TEXTIO.write(TX_LOC, TX_TIME);
STD.TEXTIO.write(TX_LOC,string'(",D,"));
IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, D);
STD.TEXTIO.write(TX_LOC, string'("]"));
TX_STR(TX_LOC.all'range) := TX_LOC.all;
STD.TEXTIO.writeline(results, TX_LOC);
STD.TEXTIO.Deallocate(TX_LOC);
END;
BEGIN
CLOCK_LOOP : LOOP
CLK8 <= transport '0';
WAIT FOR 10 ns;
TX_TIME := TX_TIME + 10;
CLK8 <= transport '1';
WAIT FOR 10 ns;
TX_TIME := TX_TIME + 10;
ANNOTATE_ALMR(TX_TIME);
ANNOTATE_CLK(TX_TIME);
ANNOTATE_CS1(TX_TIME);
ANNOTATE_INT0(TX_TIME);
ANNOTATE_M1CLR(TX_TIME);
ANNOTATE_M1PS(TX_TIME);
ANNOTATE_M1SG(TX_TIME);
ANNOTATE_M2CLR(TX_TIME);
ANNOTATE_M2PS(TX_TIME);
ANNOTATE_M2SG(TX_TIME);
ANNOTATE_PC1ON(TX_TIME);
ANNOTATE_PC2ON(TX_TIME);
ANNOTATE_REL0(TX_TIME);
ANNOTATE_SEN0(TX_TIME);
ANNOTATE_SEN1(TX_TIME);
ANNOTATE_SEN2(TX_TIME);
ANNOTATE_SPDA1(TX_TIME);
ANNOTATE_SPDB1(TX_TIME);
ANNOTATE_SPDB2(TX_TIME);
ANNOTATE_SPD2A(TX_TIME);
ANNOTATE_UART0(TX_TIME);
ANNOTATE_D(TX_TIME);
WAIT FOR 40 ns;
TX_TIME := TX_TIME + 40;
CLK8 <= transport '0';
WAIT FOR 40 ns;
TX_TIME := TX_TIME + 40;
END LOOP CLOCK_LOOP;
END PROCESS;
PROCESS -- Process for CLK8
VARIABLE TX_OUT : LINE;
BEGIN
-- --------------------
A0 <= transport '0';
A1 <= transport '1';
A2 <= transport '0';
CS <= transport '1';
INT_L0 <= transport '0';
MA0 <= transport '0';
MA1 <= transport '0';
MB0 <= transport '0';
MB1 <= transport '0';
MC0 <= transport '0';
MC1 <= transport '0';
MR_0 <= transport std_logic_vector'("00000000"); --0
MR_1 <= transport std_logic_vector'("00000000"); --0
MR_2 <= transport std_logic_vector'("00000000"); --0
RD <= transport '1';
RESET <= transport '1';
WR <= transport '1';
-- --------------------
WAIT FOR 100 ns; -- Time=100 ns
A0 <= transport '0';
CS <= transport '0';
RESET <= transport '1';
WR <= transport '0';
-- --------------------
WAIT FOR 60 ns; -- Time=160 ns
-- --------------------
STD.TEXTIO.write(TX_OUT, string'("Total[]"));
STD.TEXTIO.writeline(results, TX_OUT);
ASSERT (FALSE) REPORT
"Success! Simulation for annotation completed"
SEVERITY FAILURE;
END PROCESS;
END testbench_arch;
CONFIGURATION top_cfg OF testwave IS
FOR testbench_arch
END FOR;
END top_cfg;
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