From f44a5fb904e6e52e8383e8f13d9b3f4ab9d7ce48 Mon Sep 17 00:00:00 2001 From: Eddie Hung Date: Mon, 6 Aug 2018 17:35:23 -0700 Subject: [PATCH] clangformat --- common/timing.cc | 65 +++++++++++++++++++++++++++--------------------- ecp5/arch.cc | 7 +----- ice40/arch.cc | 22 ++++++++-------- ice40/arch.h | 14 ++++++----- 4 files changed, 57 insertions(+), 51 deletions(-) diff --git a/common/timing.cc b/common/timing.cc index 3a4f0f9c..e524cd19 100644 --- a/common/timing.cc +++ b/common/timing.cc @@ -20,11 +20,11 @@ #include "timing.h" #include +#include #include #include #include "log.h" #include "util.h" -#include NEXTPNR_NAMESPACE_BEGIN @@ -40,7 +40,8 @@ struct Timing PortRefVector *crit_path; DelayFrequency *slack_histogram; - struct TimingData { + struct TimingData + { TimingData() : max_arrival(), max_path_length(), min_remaining_budget() {} TimingData(delay_t max_arrival) : max_arrival(max_arrival), max_path_length(), min_remaining_budget() {} delay_t max_arrival; @@ -61,20 +62,22 @@ struct Timing // First, compute the topographical order of nets to walk through // the circuit, assuming it is a _acyclic_ graph - // TODO(eddieh): Handle the case where it is cyclic, e.g. combinatorial loops - std::vector topographical_order; - std::unordered_map net_data; + // TODO(eddieh): Handle the case where it is cyclic, e.g. combinatorial + // loops + std::vector topographical_order; + std::unordered_map net_data; // In lieu of deleting edges from the graph, simply count // the number of fanins to each output port - std::unordered_map port_fanin; + std::unordered_map port_fanin; std::vector input_ports; - std::vector output_ports; + std::vector output_ports; for (auto &cell : ctx->cells) { input_ports.clear(); output_ports.clear(); - for (auto& port : cell.second->ports) { - if (!port.second.net) continue; + for (auto &port : cell.second->ports) { + if (!port.second.net) + continue; if (port.second.type == PORT_OUT) output_ports.push_back(&port.second); else @@ -90,11 +93,10 @@ struct Timing DelayInfo clkToQ; ctx->getCellDelay(cell.second.get(), clock_domain, o->name, clkToQ); topographical_order.emplace_back(o->net); - net_data.emplace(o->net, TimingData{ clkToQ.maxDelay() }); - } - else { + net_data.emplace(o->net, TimingData{clkToQ.maxDelay()}); + } else { // Also add I/O cells too - // TODO(eddieh): More generic way of detecting PLLs + // TODO(eddieh): More generic way of detecting PLLs if (is_io || cell.second->type == ctx->id("ICESTORM_PLL")) { topographical_order.emplace_back(o->net); net_data.emplace(o->net, TimingData{}); @@ -124,9 +126,10 @@ struct Timing net_data.emplace(it->second.get(), TimingData{}); } - std::deque queue(topographical_order.begin(), topographical_order.end()); + std::deque queue(topographical_order.begin(), topographical_order.end()); - // Now walk the design, from the start points identified previously, building + // Now walk the design, from the start points identified previously, + // building // up a topographical order while (!queue.empty()) { const auto net = queue.front(); @@ -135,7 +138,7 @@ struct Timing DelayInfo clkToQ; for (auto &usr : net->users) { auto clock_domain = ctx->getPortClock(usr.cell, usr.port); - for (auto& port : usr.cell->ports) { + for (auto &port : usr.cell->ports) { if (port.second.type == PORT_OUT && port.second.net) { // Skip if this is a clocked output (but allow non-clocked ones) if (clock_domain != IdString() && ctx->getCellDelay(usr.cell, clock_domain, port.first, clkToQ)) @@ -182,12 +185,13 @@ struct Timing // Look up delay through this path bool is_path = ctx->getCellDelay(usr.cell, usr.port, port.first, comb_delay); if (is_path) { - auto& data = net_data[port.second.net]; - auto& arrival = data.max_arrival; + auto &data = net_data[port.second.net]; + auto &arrival = data.max_arrival; arrival = std::max(arrival, usr_arrival + comb_delay.maxDelay()); - if (!budget_override) { // Do not increment path length if budget overriden - // since it doesn't require a share of the slack - auto& path_length = data.max_path_length; + if (!budget_override) { // Do not increment path length if + // budget overriden + // since it doesn't require a share of the slack + auto &path_length = data.max_path_length; path_length = std::max(path_length, net_length_plus_one); } } @@ -197,14 +201,14 @@ struct Timing } } - const NetInfo* crit_net = nullptr; + const NetInfo *crit_net = nullptr; // Now go backwards topographically to determine the minimum path slack, // and to distribute all path slack evenly between all nets on the path for (auto net : boost::adaptors::reverse(topographical_order)) { auto &nd = net_data.at(net); const delay_t net_length_plus_one = nd.max_path_length + 1; - auto& net_min_remaining_budget = nd.min_remaining_budget; + auto &net_min_remaining_budget = nd.min_remaining_budget; for (auto &usr : net->users) { auto net_delay = net_delays ? ctx->getNetinfoRouteDelay(net, usr) : delay_t(); auto budget_override = ctx->getBudgetOverride(net, usr, net_delay); @@ -230,7 +234,7 @@ struct Timing } } else { // Iterate over all output ports on the same cell as the sink - for (const auto& port : usr.cell->ports) { + for (const auto &port : usr.cell->ports) { if (port.second.type == PORT_OUT && port.second.net) { DelayInfo comb_delay; bool is_path = ctx->getCellDelay(usr.cell, usr.port, port.first, comb_delay); @@ -239,7 +243,8 @@ struct Timing auto budget_share = budget_override ? 0 : path_budget / net_length_plus_one; if (update) usr.budget = std::min(usr.budget, net_delay + budget_share); - net_min_remaining_budget = std::min(net_min_remaining_budget, path_budget - budget_share); + net_min_remaining_budget = + std::min(net_min_remaining_budget, path_budget - budget_share); } } } @@ -250,14 +255,15 @@ struct Timing if (crit_path) { // Walk backwards from the most critical net while (crit_net) { - const PortInfo* crit_ipin = nullptr; + const PortInfo *crit_ipin = nullptr; delay_t max_arrival = std::numeric_limits::min(); // Look at all input ports on its driving cell - for (const auto& port : crit_net->driver.cell->ports) { + for (const auto &port : crit_net->driver.cell->ports) { if (port.second.type == PORT_IN && port.second.net) { DelayInfo comb_delay; - bool is_path = ctx->getCellDelay(crit_net->driver.cell, port.first, crit_net->driver.port, comb_delay); + bool is_path = + ctx->getCellDelay(crit_net->driver.cell, port.first, crit_net->driver.port, comb_delay); if (is_path) { // If input port is influenced by a clock, skip if (ctx->getPortClock(crit_net->driver.cell, port.first) != IdString()) @@ -273,7 +279,8 @@ struct Timing } } - if (!crit_ipin) break; + if (!crit_ipin) + break; for (auto &usr : crit_ipin->net->users) { if (usr.cell->name == crit_net->driver.cell->name && usr.port == crit_ipin->name) { diff --git a/ecp5/arch.cc b/ecp5/arch.cc index 4a3e8ef3..de3abd44 100644 --- a/ecp5/arch.cc +++ b/ecp5/arch.cc @@ -375,7 +375,6 @@ BelId Arch::getPioByFunctionName(const std::string &name) const } std::vector Arch::getBelPins(BelId bel) const - { std::vector ret; NPNR_ASSERT(bel != BelId()); @@ -500,11 +499,7 @@ IdString Arch::getPortClock(const CellInfo *cell, IdString port) const { return bool Arch::isClockPort(const CellInfo *cell, IdString port) const { return false; } -bool Arch::isIOCell(const CellInfo *cell) const -{ - return cell->type == id("TRELLIS_IO"); -} - +bool Arch::isIOCell(const CellInfo *cell) const { return cell->type == id("TRELLIS_IO"); } std::vector> Arch::getTilesAtLocation(int row, int col) { diff --git a/ice40/arch.cc b/ice40/arch.cc index 324934d0..16104033 100644 --- a/ice40/arch.cc +++ b/ice40/arch.cc @@ -291,7 +291,8 @@ BelId Arch::getBelByLocation(Loc loc) const BelRange Arch::getBelsByTile(int x, int y) const { - // In iCE40 chipdb bels at the same tile are consecutive and dense z ordinates are used + // In iCE40 chipdb bels at the same tile are consecutive and dense z ordinates + // are used BelRange br; br.b.cursor = Arch::getBelByLocation(Loc(x, y, 0)).index; @@ -645,23 +646,27 @@ bool Arch::getBudgetOverride(const NetInfo *net_info, const PortRef &sink, delay auto sink_loc = getBelLocation(sink.cell->bel); if (driver_loc.y == sink_loc.y) budget = 0; - else switch (args.type) { + else + switch (args.type) { #ifndef ICE40_HX1K_ONLY case ArchArgs::HX8K: #endif case ArchArgs::HX1K: - budget = 190; break; + budget = 190; + break; #ifndef ICE40_HX1K_ONLY case ArchArgs::LP384: case ArchArgs::LP1K: case ArchArgs::LP8K: - budget = 290; break; + budget = 290; + break; case ArchArgs::UP5K: - budget = 560; break; + budget = 560; + break; #endif default: log_error("Unsupported iCE40 chip type.\n"); - } + } return true; } return false; @@ -913,10 +918,7 @@ bool Arch::isGlobalNet(const NetInfo *net) const return net->driver.cell != nullptr && net->driver.port == id_glb_buf_out; } -bool Arch::isIOCell(const CellInfo *cell) const -{ - return cell->type == id_sb_io; -} +bool Arch::isIOCell(const CellInfo *cell) const { return cell->type == id_sb_io; } // Assign arch arg info void Arch::assignArchInfo() diff --git a/ice40/arch.h b/ice40/arch.h index 2b785079..a5be7e33 100644 --- a/ice40/arch.h +++ b/ice40/arch.h @@ -400,10 +400,10 @@ struct Arch : BaseCtx mutable std::unordered_map bel_by_loc; std::vector bel_carry; - std::vector bel_to_cell; - std::vector wire_to_net; - std::vector pip_to_net; - std::vector switches_locked; + std::vector bel_to_cell; + std::vector wire_to_net; + std::vector pip_to_net; + std::vector switches_locked; ArchArgs args; Arch(ArchArgs args); @@ -799,7 +799,8 @@ struct Arch : BaseCtx // ------------------------------------------------- - // Perform placement validity checks, returning false on failure (all implemented in arch_place.cc) + // Perform placement validity checks, returning false on failure (all + // implemented in arch_place.cc) // Whether or not a given cell can be placed at a given Bel // This is not intended for Bel type checks, but finer-grained constraints @@ -813,7 +814,8 @@ struct Arch : BaseCtx bool logicCellsCompatible(const std::vector &cells) const; // ------------------------------------------------- - // Assign architecure-specific arguments to nets and cells, which must be called between packing or further + // Assign architecure-specific arguments to nets and cells, which must be + // called between packing or further // netlist modifications, and validity checks void assignArchInfo(); void assignCellInfo(CellInfo *cell);