Escape Verilog identifiers for legality outside of Yosys

2019-10-01 13:05:56 -07:00 · 2019-10-01 13:05:56 -07:00 · 03ebe43e3e
parent 1b96d29174
commit 03ebe43e3e
1 changed files with 48 additions and 48 deletions
--- a/techlibs/xilinx/cells_sim.v
+++ b/techlibs/xilinx/cells_sim.v
@ -258,9 +258,9 @@ module FDRE (
  parameter [0:0] IS_D_INVERTED = 1'b0;
  parameter [0:0] IS_R_INVERTED = 1'b0;
  initial Q <= INIT;
-  wire $currQ;
-  reg $nextQ;
-  always @* if (R == !IS_R_INVERTED) $nextQ = 1'b0; else if (CE) $nextQ = D ^ IS_D_INVERTED; else $nextQ = $currQ;
+  wire \$currQ ;
+  reg \$nextQ ;
+  always @* if (R == !IS_R_INVERTED) $nextQ = 1'b0; else if (CE) $nextQ = D ^ IS_D_INVERTED; else $nextQ = \$currQ ;
 `ifdef _ABC
  // `abc9' requires that complex flops be split into a combinatorial
  //   box (this module) feeding a simple flop ($_ABC_FF_ in abc_map.v)
@ -277,12 +277,12 @@ module FDRE (
  //   (which, combined with this spell type, encodes to `abc9'
  //    which flops may be merged together)
  wire [3:0] $abc9_control = {CE, IS_D_INVERTED, R, IS_R_INVERTED};
-  always @* Q = $nextQ;
+  always @* Q = \$nextQ ;
 `else
  assign $currQ = Q;
  generate case (|IS_C_INVERTED)
-    1'b0: always @(posedge C) Q <= $nextQ;
-    1'b1: always @(negedge C) Q <= $nextQ;
+    1'b0: always @(posedge C) Q <= \$nextQ ;
+    1'b1: always @(negedge C) Q <= \$nextQ ;
  endcase endgenerate
 `endif
 endmodule
@ -297,9 +297,9 @@ module FDRE_1 (
 );
  parameter [0:0] INIT = 1'b0;
  initial Q <= INIT;
-  wire $currQ;
-  reg $nextQ;
-  always @* if (R) Q <= 1'b0; else if (CE) Q <= D; else $nextQ = $currQ;
+  wire \$currQ ;
+  reg \$nextQ ;
+  always @* if (R) Q <= 1'b0; else if (CE) Q <= D; else $nextQ = \$currQ ;
 `ifdef _ABC
  // `abc9' requires that complex flops be split into a combinatorial
  //   box (this module) feeding a simple flop ($_ABC_FF_ in abc_map.v)
@ -316,10 +316,10 @@ module FDRE_1 (
  //   (which, combined with this spell type, encodes to `abc9'
  //    which flops may be merged together)
  wire [3:0] $abc9_control = {CE, 1'b0 /* IS_D_INVERTED */, R, 1'b0 /* IS_R_INVERTED */};
-  always @* Q = $nextQ;
+  always @* Q = \$nextQ ;
 `else
  assign $currQ = Q;
-  always @(negedge C) Q <= $nextQ;
+  always @(negedge C) Q <= \$nextQ ;
 `endif
 endmodule

@ -341,9 +341,9 @@ module FDCE (
  parameter [0:0] IS_D_INVERTED = 1'b0;
  parameter [0:0] IS_CLR_INVERTED = 1'b0;
  initial Q <= INIT;
-  wire $currQ;
-  reg $nextQ;
-  always @* if (CE) Q <= D ^ IS_D_INVERTED; else $nextQ = $currQ;
+  wire \$currQ ;
+  reg \$nextQ ;
+  always @* if (CE) Q <= D ^ IS_D_INVERTED; else $nextQ = \$currQ ;
 `ifdef _ABC
  // `abc9' requires that complex flops be split into a combinatorial
  //   box (this module) feeding a simple flop ($_ABC_FF_ in abc_map.v)
@ -362,14 +362,14 @@ module FDCE (
  //   (which, combined with this spell type, encodes to `abc9'
  //    which flops may be merged together)
  wire [3:0] $abc9_control = {CE, IS_D_INVERTED, CLR, IS_CLR_INVERTED};
-  always @* Q = $nextQ;
+  always @* Q = \$nextQ ;
 `else
  assign $currQ = Q;
  generate case ({|IS_C_INVERTED, |IS_CLR_INVERTED})
-    2'b00: always @(posedge C, posedge CLR) if ( CLR) Q <= 1'b0; else Q <= $nextQ;
-    2'b01: always @(posedge C, negedge CLR) if (!CLR) Q <= 1'b0; else Q <= $nextQ;
-    2'b10: always @(negedge C, posedge CLR) if ( CLR) Q <= 1'b0; else Q <= $nextQ;
-    2'b11: always @(negedge C, negedge CLR) if (!CLR) Q <= 1'b0; else Q <= $nextQ;
+    2'b00: always @(posedge C, posedge CLR) if ( CLR) Q <= 1'b0; else Q <= \$nextQ ;
+    2'b01: always @(posedge C, negedge CLR) if (!CLR) Q <= 1'b0; else Q <= \$nextQ ;
+    2'b10: always @(negedge C, posedge CLR) if ( CLR) Q <= 1'b0; else Q <= \$nextQ ;
+    2'b11: always @(negedge C, negedge CLR) if (!CLR) Q <= 1'b0; else Q <= \$nextQ ;
  endcase endgenerate
 `endif
 endmodule
@ -384,9 +384,9 @@ module FDCE_1 (
 );
  parameter [0:0] INIT = 1'b0;
  initial Q <= INIT;
-  wire $currQ;
-  reg $nextQ;
-  always @* if (CE) Q <= D; else $nextQ = $currQ;
+  wire \$currQ ;
+  reg \$nextQ ;
+  always @* if (CE) Q <= D; else $nextQ = \$currQ ;
 `ifdef _ABC
  // `abc9' requires that complex flops be split into a combinatorial
  //   box (this module) feeding a simple flop ($_ABC_FF_ in abc_map.v)
@ -405,10 +405,10 @@ module FDCE_1 (
  //   (which, combined with this spell type, encodes to `abc9'
  //    which flops may be merged together)
  wire [3:0] $abc9_control = {CE, 1'b0 /* IS_D_INVERTED */, CLR, 1'b0 /* IS_CLR_INVERTED */};
-  always @* Q = $nextQ;
+  always @* Q = \$nextQ ;
 `else
  assign $currQ = Q;
-  always @(negedge C, posedge CLR) if (CLR) Q <= 1'b0; else Q <= $nextQ;
+  always @(negedge C, posedge CLR) if (CLR) Q <= 1'b0; else Q <= \$nextQ ;
 `endif
 endmodule

@ -430,9 +430,9 @@ module FDPE (
  parameter [0:0] IS_D_INVERTED = 1'b0;
  parameter [0:0] IS_PRE_INVERTED = 1'b0;
  initial Q <= INIT;
-  wire $currQ;
-  reg $nextQ;
-  always @* if (CE) Q <= D ^ IS_D_INVERTED; else $nextQ = $currQ;
+  wire \$currQ ;
+  reg \$nextQ ;
+  always @* if (CE) Q <= D ^ IS_D_INVERTED; else $nextQ = \$currQ ;
 `ifdef _ABC
  // `abc9' requires that complex flops be split into a combinatorial
  //   box (this module) feeding a simple flop ($_ABC_FF_ in abc_map.v)
@ -451,14 +451,14 @@ module FDPE (
  //   (which, combined with this spell type, encodes to `abc9'
  //    which flops may be merged together)
  wire [3:0] $abc9_control = {CE, IS_D_INVERTED, PRE, IS_PRE_INVERTED};
-  always @* Q = $nextQ;
+  always @* Q = \$nextQ ;
 `else
  assign $currQ = Q;
  generate case ({|IS_C_INVERTED, |IS_PRE_INVERTED})
-    2'b00: always @(posedge C, posedge PRE) if ( PRE) Q <= 1'b1; else Q <= $nextQ;
-    2'b01: always @(posedge C, negedge PRE) if (!PRE) Q <= 1'b1; else Q <= $nextQ;
-    2'b10: always @(negedge C, posedge PRE) if ( PRE) Q <= 1'b1; else Q <= $nextQ;
-    2'b11: always @(negedge C, negedge PRE) if (!PRE) Q <= 1'b1; else Q <= $nextQ;
+    2'b00: always @(posedge C, posedge PRE) if ( PRE) Q <= 1'b1; else Q <= \$nextQ ;
+    2'b01: always @(posedge C, negedge PRE) if (!PRE) Q <= 1'b1; else Q <= \$nextQ ;
+    2'b10: always @(negedge C, posedge PRE) if ( PRE) Q <= 1'b1; else Q <= \$nextQ ;
+    2'b11: always @(negedge C, negedge PRE) if (!PRE) Q <= 1'b1; else Q <= \$nextQ ;
  endcase endgenerate
 `endif
 endmodule
@ -473,9 +473,9 @@ module FDPE_1 (
 );
  parameter [0:0] INIT = 1'b1;
  initial Q <= INIT;
-  wire $currQ;
-  reg $nextQ;
-  always @* if (CE) Q <= D; else $nextQ = $currQ;
+  wire \$currQ ;
+  reg \$nextQ ;
+  always @* if (CE) Q <= D; else $nextQ = \$currQ ;
 `ifdef _ABC
  // `abc9' requires that complex flops be split into a combinatorial
  //   box (this module) feeding a simple flop ($_ABC_FF_ in abc_map.v)
@ -494,10 +494,10 @@ module FDPE_1 (
  //   (which, combined with this spell type, encodes to `abc9'
  //    which flops may be merged together)
  wire [3:0] $abc9_control = {CE, 1'b0 /* IS_D_INVERTED */, PRE, 1'b0 /* IS_PRE_INVERTED */};
-  always @* Q = $nextQ;
+  always @* Q = \$nextQ ;
 `else
  assign $currQ = Q;
-  always @(negedge C, posedge PRE) if (PRE) Q <= 1'b1; else Q <= $nextQ;
+  always @(negedge C, posedge PRE) if (PRE) Q <= 1'b1; else Q <= \$nextQ ;
 `endif
 endmodule

@ -519,9 +519,9 @@ module FDSE (
  parameter [0:0] IS_D_INVERTED = 1'b0;
  parameter [0:0] IS_S_INVERTED = 1'b0;
  initial Q <= INIT;
-  wire $currQ;
-  reg $nextQ;
-  always @* if (S == !IS_S_INVERTED) $nextQ = 1'b1; else if (CE) $nextQ = D ^ IS_D_INVERTED; else $nextQ = $currQ;
+  wire \$currQ ;
+  reg \$nextQ ;
+  always @* if (S == !IS_S_INVERTED) $nextQ = 1'b1; else if (CE) $nextQ = D ^ IS_D_INVERTED; else $nextQ = \$currQ ;
 `ifdef _ABC
  // `abc9' requires that complex flops be split into a combinatorial
  //   box (this module) feeding a simple flop ($_ABC_FF_ in abc_map.v)
@ -538,12 +538,12 @@ module FDSE (
  //   (which, combined with this spell type, encodes to `abc9'
  //    which flops may be merged together)
  wire [3:0] $abc9_control = {CE, IS_D_INVERTED, S, IS_S_INVERTED};
-  always @* Q = $nextQ;
+  always @* Q = \$nextQ ;
 `else
  assign $currQ = Q;
  generate case (|IS_C_INVERTED)
-    1'b0: always @(posedge C) Q <= $nextQ;
-    1'b1: always @(negedge C) Q <= $nextQ;
+    1'b0: always @(posedge C) Q <= \$nextQ ;
+    1'b1: always @(negedge C) Q <= \$nextQ ;
  endcase endgenerate
 `endif
 endmodule
@ -558,9 +558,9 @@ module FDSE_1 (
 );
  parameter [0:0] INIT = 1'b1;
  initial Q <= INIT;
-  wire $currQ;
-  reg $nextQ;
-  always @* if (S) $nextQ = 1'b1; else if (CE) $nextQ = D; else $nextQ = $currQ;
+  wire \$currQ ;
+  reg \$nextQ ;
+  always @* if (S) $nextQ = 1'b1; else if (CE) $nextQ = D; else $nextQ = \$currQ ;
 `ifdef _ABC
  // `abc9' requires that complex flops be split into a combinatorial
  //   box (this module) feeding a simple flop ($_ABC_FF_ in abc_map.v)
@ -577,10 +577,10 @@ module FDSE_1 (
  //   (which, combined with this spell type, encodes to `abc9'
  //    which flops may be merged together)
  wire [3:0] $abc9_control = {CE, 1'b0 /* IS_D_INVERTED */, S, 1'b0 /* IS_S_INVERTED */};
-  always @* Q = $nextQ;
+  always @* Q = \$nextQ ;
 `else
  assign $currQ = Q;
-  always @(negedge C) Q <= $nextQ;
+  always @(negedge C) Q <= \$nextQ ;
 `endif
 endmodule