#include #include "util.h" #include "vpr_types.h" #include "globals.h" #include "OptionTokens.h" #include "ReadOptions.h" #include "read_xml_arch_file.h" #include "SetupVPR.h" /* Checks that options don't conflict and that * options aren't specified that may conflict */ void CheckOptions(INP t_options Options, INP boolean TimingEnabled) { boolean TimingPlacer; boolean TimingRouter; boolean default_flow; const struct s_TokenPair *Cur; enum e_OptionBaseToken Yes; default_flow = (boolean) (Options.Count[OT_ROUTE] == 0 && Options.Count[OT_PLACE] == 0 && Options.Count[OT_PACK] == 0 && Options.Count[OT_TIMING_ANALYZE_ONLY_WITH_NET_DELAY] == 0); /* Check that all filenames were given */ if ((NULL == Options.CircuitName) || (NULL == Options.ArchFile)) { vpr_printf(TIO_MESSAGE_ERROR, "Not enough args. Need at least 'vpr '.\n"); exit(1); } /* Check that options aren't over specified */ Cur = OptionBaseTokenList; while (Cur->Str) { if (Options.Count[Cur->Enum] > 1) { vpr_printf(TIO_MESSAGE_ERROR, "Parameter '%s' was specified more than once on command line.\n", Cur->Str); exit(1); } ++Cur; } /* Todo: Add in checks for packer */ /* Check for conflicting parameters and determine if placer and * router are on. */ if (Options.Count[OT_TIMING_ANALYZE_ONLY_WITH_NET_DELAY] && (Options.Count[OT_PACK] || Options.Count[OT_PLACE] || Options.Count[OT_ROUTE])) { vpr_printf(TIO_MESSAGE_ERROR, "'cluster'/'route'/'place', and 'timing_analysis_only_with_net_delay' are mutually exclusive flags..\n"); exit(1); } /* If placing and timing is enabled, default to a timing placer */ TimingPlacer = (boolean)((Options.Count[OT_PLACE] || default_flow) && TimingEnabled); if (Options.Count[OT_PLACE_ALGORITHM] > 0) { if ((PATH_TIMING_DRIVEN_PLACE != Options.PlaceAlgorithm) && (NET_TIMING_DRIVEN_PLACE != Options.PlaceAlgorithm)) { /* Turn off the timing placer if they request a different placer */ TimingPlacer = FALSE; } } /* If routing and timing is enabled, default to a timing router */ TimingRouter = (boolean)((Options.Count[OT_ROUTE] || default_flow) && TimingEnabled); if (Options.Count[OT_ROUTER_ALGORITHM] > 0) { if (TIMING_DRIVEN != Options.RouterAlgorithm) { /* Turn off the timing router if they request a different router */ TimingRouter = FALSE; } } Yes = OT_BASE_UNKNOWN; if (Options.Count[OT_SEED] > 0) { Yes = OT_SEED; } if (Options.Count[OT_INNER_NUM] > 0) { Yes = OT_INNER_NUM; } if (Options.Count[OT_INIT_T] > 0) { Yes = OT_INIT_T; } if (Options.Count[OT_ALPHA_T] > 0) { Yes = OT_ALPHA_T; } if (Options.Count[OT_EXIT_T] > 0) { Yes = OT_EXIT_T; } if (Options.Count[OT_FIX_PINS] > 0) { Yes = OT_FIX_PINS; } if (Options.Count[OT_PLACE_ALGORITHM] > 0) { Yes = OT_PLACE_ALGORITHM; } if (Options.Count[OT_PLACE_COST_EXP] > 0) { Yes = OT_PLACE_COST_EXP; } if (Options.Count[OT_PLACE_CHAN_WIDTH] > 0) { Yes = OT_PLACE_CHAN_WIDTH; } if (Options.Count[OT_ENABLE_TIMING_COMPUTATIONS] > 0) { Yes = OT_ENABLE_TIMING_COMPUTATIONS; } if (Options.Count[OT_BLOCK_DIST] > 0) { Yes = OT_BLOCK_DIST; } /* Make sure if place is off none of those options were given */ if ((Options.Count[OT_PLACE] == 0) && !default_flow && (Yes < OT_BASE_UNKNOWN)) { Cur = OptionBaseTokenList; while (Cur->Str) { if (Yes == Cur->Enum) { vpr_printf(TIO_MESSAGE_ERROR, "Option '%s' is not allowed when placement is not run.\n", Cur->Str); exit(1); } ++Cur; } } Yes = OT_BASE_UNKNOWN; if (Options.Count[OT_TIMING_TRADEOFF] > 0) { Yes = OT_TIMING_TRADEOFF; } if (Options.Count[OT_RECOMPUTE_CRIT_ITER] > 0) { Yes = OT_RECOMPUTE_CRIT_ITER; } if (Options.Count[OT_INNER_LOOP_RECOMPUTE_DIVIDER] > 0) { Yes = OT_INNER_LOOP_RECOMPUTE_DIVIDER; } if (Options.Count[OT_TD_PLACE_EXP_FIRST] > 0) { Yes = OT_TD_PLACE_EXP_FIRST; } if (Options.Count[OT_TD_PLACE_EXP_LAST] > 0) { Yes = OT_TD_PLACE_EXP_LAST; } /* Make sure if place is off none of those options were given */ if ((FALSE == TimingPlacer) && (Yes < OT_BASE_UNKNOWN)) { Cur = OptionBaseTokenList; while (Cur->Str) { if (Yes == Cur->Enum) { vpr_printf(TIO_MESSAGE_ERROR, "Option '%s' is not allowed when timing placement is not used.\n", Cur->Str); exit(1); } ++Cur; } } Yes = OT_BASE_UNKNOWN; if (Options.Count[OT_ROUTE_TYPE] > 0) { Yes = OT_ROUTE_TYPE; } if (Options.Count[OT_ROUTE_CHAN_WIDTH] > 0) { Yes = OT_ROUTE_CHAN_WIDTH; } if (Options.Count[OT_ROUTER_ALGORITHM] > 0) { Yes = OT_ROUTER_ALGORITHM; } if (Options.Count[OT_MAX_ROUTER_ITERATIONS] > 0) { Yes = OT_MAX_ROUTER_ITERATIONS; } if (Options.Count[OT_INITIAL_PRES_FAC] > 0) { Yes = OT_INITIAL_PRES_FAC; } if (Options.Count[OT_FIRST_ITER_PRES_FAC] > 0) { Yes = OT_FIRST_ITER_PRES_FAC; } if (Options.Count[OT_PRES_FAC_MULT] > 0) { Yes = OT_PRES_FAC_MULT; } if (Options.Count[OT_ACC_FAC] > 0) { Yes = OT_ACC_FAC; } if (Options.Count[OT_BB_FACTOR] > 0) { Yes = OT_BB_FACTOR; } if (Options.Count[OT_BASE_COST_TYPE] > 0) { Yes = OT_BASE_COST_TYPE; } if (Options.Count[OT_BEND_COST] > 0) { Yes = OT_BEND_COST; } if (Options.Count[OT_BASE_COST_TYPE] > 0) { Yes = OT_BASE_COST_TYPE; } if (Options.Count[OT_ASTAR_FAC] > 0) { Yes = OT_ASTAR_FAC; } Yes = OT_BASE_UNKNOWN; if (Options.Count[OT_MAX_CRITICALITY] > 0) { Yes = OT_MAX_CRITICALITY; } if (Options.Count[OT_CRITICALITY_EXP] > 0) { Yes = OT_CRITICALITY_EXP; } /* Make sure if timing router is off none of those options were given */ if ((FALSE == TimingRouter) && (Yes < OT_BASE_UNKNOWN)) { Cur = OptionBaseTokenList; while (Cur->Str) { if (Yes == Cur->Enum) { vpr_printf(TIO_MESSAGE_ERROR, "Option '%s' is not allowed when timing router is not used.\n", Cur->Str); exit(1); } ++Cur; } } }